Publications of Henry R. Weller    :chronological  combined listing:

%% Books   
@book{fds139609,
   Author = {H.R. Weller},
   Title = {Research Opportunities at the Upgraded HIGS
             Facility},
   Booktitle = {Chiral Dynamics 2006},
   Publisher = {World Scientific Publishing Co.},
   Address = {27 Warren St., Suite 401, Hackensack, NJ},
   Editor = {M. Ahmed and H. Gao and B. Holstein and H. R. Weller},
   Year = {2007},
   Key = {fds139609}
}


%% Papers Published   
@article{fds249038,
   Author = {al, MHE},
   Title = {"Coherent Bremsstrahlung in the Ą + p system at 50
             MeV/nucleon"},
   Journal = {Phys. Rev. Lett.},
   Volume = {85 (7)},
   Pages = {1404},
   Year = {2000},
   Key = {fds249038}
}

@article{fds4828,
   Author = {H.R. Weller},
   Title = {"Past, Present, and Future Studies of the GDH Sum Rule for D
             and 3He at TUNL"},
   Booktitle = {Proceedings of the Symposium on the GDH Sum
             Rule},
   Publisher = {World Scientific Publishing Co., Sinagpore},
   Editor = {Drechsel and Tiator},
   Year = {2001},
   Key = {fds4828}
}

@article{fds249037,
   Author = {al, JHKE},
   Title = {"The 11B(p,ƒ×)12C Reaction below 100 keV"},
   Journal = {Phys. Rev.},
   Volume = {C62},
   Pages = {025803},
   Year = {2000},
   Key = {fds249037}
}

@article{fds249015,
   Author = {Gaff, SJ and Canon, RS and Kelley, JH and Nelson, SO and Sabourov, K and Schreiber, EC and Tilley, DR and Weller, HR and Wulf,
             EA},
   Title = {"The Spin-Parity of the 7.478 MeV State of 10B from the
             9Be(p,ƒ×)10B Reaction,"},
   Journal = {Physical Review C},
   Volume = {C59},
   Number = {6},
   Pages = {3425},
   Publisher = {American Physical Society},
   Year = {1999},
   Month = {June},
   url = {http:/aps.org},
   Key = {fds249015}
}

@article{fds4830,
   Author = {H.R. Weller},
   Title = {"Threshold Contribution to the GDH Sum Rule in
             3He,"},
   Booktitle = {Proceedings of the 16th International IUPAP Conference on
             Few-Body Problems in Physics},
   Publisher = {Elsevier, Amsterdam},
   Editor = {Chung, Ho and Lee and Yang},
   Year = {2001},
   Key = {fds4830}
}

@article{fds249026,
   Author = {Canon, RS and Nelson, SO and Sabourov, K and Wulf, E and Weller,
             HR},
   Title = {3H(p,gamma)4He reaction below Ep=80 keV},
   Journal = {Physical Review C},
   Volume = {65},
   Number = {044008},
   Pages = {(7)},
   Publisher = {American Physical Society},
   Year = {2002},
   Month = {April},
   url = {http://www.aps.org/},
   Abstract = {www.aps.org},
   Key = {fds249026}
}

@booklet{Godwin97,
   Author = {Godwin, MA and Laymon, CM and Prior, RM and Tilley, DR and Weller,
             HR},
   Title = {7Li(p→,γ)8Bereaction atEp=80–0 keV},
   Journal = {Physical Review C},
   Volume = {56},
   Number = {3},
   Pages = {1605-1612},
   Publisher = {American Physical Society (APS)},
   Year = {1997},
   Month = {September},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1997XW37900047&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.56.1605},
   Key = {Godwin97}
}

@booklet{Wagenaar85a,
   Author = {Wagenaar, DJ and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {A bismuth germanate gamma-ray spectrometer with a plastic
             anticoincidence shield},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {234},
   Number = {1},
   Pages = {109-115},
   Publisher = {Elsevier BV},
   Year = {1985},
   Month = {January},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1985AET3200014&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Response functions to photons in the energy range of
             4.4-26.6 MeV have been obtained for a 7.6 × 7.6 cm BGO
             scintillator surrounded by a 5.1 cm thick well-type
             anticoincident shield. An AmBe source and various (p, γ)
             reactions provided the gamma-rays. The energy resolutions
             obtained varied from 8.4% (fwhm) at Eγ = 4.4 MeV to 6.6% at
             21.0 MeV. The efficiency of the system has been determined
             by using the 12C(p, γ)13N reaction near Ep(Eγ) = 14.24
             (15.07) MeV. In addition, the response function has been
             obtained for 18 MeV gamma-rays from the 40Ca(n, γ)41Ca
             reaction using 10 MeV neutrons produced via the 2H(d, n)3He
             reaction. © 1985.},
   Doi = {10.1016/0168-9002(85)90814-9},
   Key = {Wagenaar85a}
}

@article{fds4829,
   Author = {H.R. Weller},
   Title = {A Free-Electron Laser Generated Gamma-Ray Beam for Nuclear
             Physics},
   Booktitle = {Proceedings of the Symposium on Fundamental Issues in
             Elementary Matter},
   Publisher = {EP Systems, Debrecen, Hungary},
   Editor = {W. Greiner},
   Year = {2001},
   Key = {fds4829}
}

@booklet{Prior95,
   Author = {Prior, RM and Chasteler, RM and Weller, HR},
   Title = {A polarimeter for low-energy protons},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {355},
   Number = {2-3},
   Pages = {439-442},
   Publisher = {Elsevier BV},
   Year = {1995},
   Month = {February},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995QJ70600030&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A polarimeter is described for proton beam energies below
             100 keV using the7Li(p, γ)8Be reaction. Measurements
             indicate an analyzing power near 0.4 with yields that would
             allow a 10% measurement of beam polarization in 1 h for
             sources producing beam currents on the order of 30 μA. ©
             1995.},
   Doi = {10.1016/0168-9002(94)01017-X},
   Key = {Prior95}
}

@booklet{Chasteler94a,
   Author = {Chasteler, RM and Weller, HR},
   Title = {A portable 17.3 MeV gamma-ray source},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {344},
   Number = {2},
   Pages = {429-431},
   Publisher = {Elsevier BV},
   Year = {1994},
   Month = {May},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994NJ92900021&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The7Li(p, γ)8Be reaction at low beam energies, ≤ 100 keV,
             is considered for use as a high energy gamma-ray source.
             Production rates indicate that this reaction would yield a
             reasonable intensity of 17.3 and 14.3 MeV gamma rays with
             inexpensive and readily available proton ion sources. ©
             1994.},
   Doi = {10.1016/0168-9002(94)90093-0},
   Key = {Chasteler94a}
}

@article{fds16764,
   Author = {H.R. Weller},
   Title = {A Study of the GDH Sum Rule Integrand for the Deuteron at
             TUNL and HIGS Near Photdisintegration Threshold},
   Series = {2003 by World Scientific Publishing Co. Pte.
             Ltd.},
   Pages = {173},
   Booktitle = {Proceedings of the Second International Symposium on the
             Gerasimov-Drell-Hearn Sum Rule and the Spin Structure of the
             Deuteron},
   Publisher = {World Scientific},
   Editor = {M. Anghinolfi and M. Battagleiri and R. De
             Vita},
   Year = {2003},
   Key = {fds16764}
}

@article{fds248886,
   Author = {Weissman, L and Gai, M and Breskin, A and Chechik, R and Dangendorf, V and Tittelmeier, K and Weller, HR},
   Title = {Amplification and scintillation properties of oxygen-rich
             gas mixtures for optical-TPC applications},
   Journal = {Journal of Instrumentation},
   Volume = {1},
   Number = {1},
   Pages = {1-17},
   Publisher = {IOP Publishing},
   Year = {2006},
   Month = {Spring},
   ISSN = {1748-0221},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000202974900003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We studied electron amplification and light emission from
             avalanches in oxygen-containing gas mixtures. The mixtures
             investigated in this work included, among others, CO2 and
             N2O mixed with Triethylamine (TEA) or N2. Double-Step
             Parallel Gap (DSPG) multipliers and THick Gas Electron
             Multipliers (THGEM) were investigated. High light yields
             were measured from CO2+N2 and CO2+TEA, though with different
             emission spectra. We observed the characteristic wave-length
             emission of N 2 and of TEA and used a polymer wave-length
             shifter to convert TEA UV-light into the visible spectrum.
             The results of these measurements indicate the applicability
             of optical recording of ionizing tracks in a TPC
             target-detector designed to study the cross-sections of the
             16O(γ,α)12C reaction, a central problem in nuclear
             astrophysics.},
   Doi = {10.1088/1748-0221/1/05/p05002},
   Key = {fds248886}
}

@article{fds248881,
   Author = {Ahmed, M and Weller, HR and al, E},
   Title = {An Indirect Determination of the Gerasimov-Drell-Hearn (GDH)
             Sum Rule for the Deuteron at Low Energies},
   Journal = {Bulletin of the APS},
   Volume = {52},
   Number = {3},
   Pages = {102},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2007},
   Key = {fds248881}
}

@article{fds249024,
   Author = {Nelson, SO and Ahmed, MW and Perdue, BA and Sabourov, K and Sabourov, A and Tonchev, AP and Prior, RM and Spraker, M and Weller,
             HR},
   Title = {Analyzing Power Measurements for the 14N(p,g)15O Reaction at
             Astrophysically Relevant Energies},
   Journal = {Physical Review C},
   Volume = {C68},
   Pages = {065804},
   Publisher = {APS},
   Year = {2003},
   Month = {December},
   url = {http://aps.org/},
   Key = {fds249024}
}

@article{fds28963,
   Author = {S. O. Nelson and M. W. Ahmed and B. A. Perdue and K. Sabourov and A. L.
             Sabourov and A. P. Tonchev and R. M. Prior and M. Spraker and H. R.
             Weller},
   Title = {Analyzing Power Measurment for the 14N(p,gamma)15O Reaction
             at Astrophysically Relevant Eenrgies},
   Journal = {Physical Review},
   Volume = {C68},
   Pages = {065804},
   Publisher = {American Physical Society},
   Year = {2003},
   url = {http://aps.org},
   Key = {fds28963}
}

@booklet{Weller92,
   Author = {Weller, HR and Langenbrunner, J and Chasteler, RM and Tomusiak, EL and Asai, J and Seyler, RG and Lehman, DR},
   Title = {Angular distribution coefficients for (γ, X) reactions with
             linearly polarized photons},
   Journal = {Atomic Data and Nuclear Data Tables},
   Volume = {50},
   Number = {1},
   Pages = {29-135},
   Publisher = {Elsevier BV},
   Year = {1992},
   Month = {January},
   ISSN = {0092-640X},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1992HA43800002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The formalism for a linearly polarized γ-ray capture
             particle-out reaction is presented. The form given allows
             one to generate the expressions for the cross section as a
             function of the detected particle angle, θ, and the
             photon-polarization angle, φ, in terms of the reduced
             transition matrix elements. Tables, which allow the reader
             to construct these expressions, are presented for target
             spins and parities of 0+, 1 2+, 1+, and 3 2+; outgoing
             particle spins and parities of 0+, 1 2+, and 1+; residual
             nuclei spins and parities of 0+, 1 2±, 1+, and 3 2±; and
             multipolarities E1, M1, and E2. The tables are also labeled
             with equivalent Jπ combinations obtained by reversing the
             parities of any two of the three particles, which lead to
             the same expression for the cross section. ©
             1992.},
   Doi = {10.1016/0092-640X(92)90024-C},
   Key = {Weller92}
}

@booklet{Weller94,
   Author = {Weller, HR and Chasteler, RM and Marks, BS and Seyler, RG and Lehman,
             DR},
   Title = {Angular Distribution Coefficients for (γ,X) Reactions with
             Circularly Polarized Photons and Polarized Targets and a
             Correction to Previous Tables},
   Journal = {Atomic Data and Nuclear Data Tables},
   Volume = {58},
   Number = {2},
   Pages = {219-225},
   Publisher = {Elsevier BV},
   Year = {1994},
   Month = {November},
   ISSN = {0092-640X},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994PP87800003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1006/adnd.1994.1028},
   Key = {Weller94}
}

@article{fds249041,
   Author = {Wulf, EA and Guillemette, J and Seyler, RG and Weller,
             HR},
   Title = {Angular distribution coefficients for γ-ray polarizations
             produced in polarized capture reactions},
   Journal = {Atomic Data and Nuclear Data Tables},
   Volume = {72},
   Number = {1},
   Pages = {21-32},
   Publisher = {Elsevier BV},
   Year = {1999},
   Month = {January},
   ISSN = {0092-640X},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000081317600002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1006/adnd.1999.0807},
   Key = {fds249041}
}

@booklet{Weller94a,
   Author = {WELLER, HR and LANGENBRUNNER, J and CHASTELER, RM and TOMUSIAK, EL and ASAI, J and SEYLER, RG and LEHMAN, DR},
   Title = {ANGULAR-DISTRIBUTION COEFFICIENTS FOR (GAMMA,CHI) REACTIONS
             WITH LINEARLY POLARIZED PHOTONS (VOL 50,
             1992)},
   Journal = {Atomic Data and Nuclear Data Tables},
   Volume = {58},
   Number = {2},
   Pages = {317-318},
   Year = {1994},
   Month = {November},
   ISSN = {0092-640X},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994PP87800008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Weller94a}
}

@article{fds248887,
   Author = {Parpottas, Y and Ahmed, MW and Blackston, MA and Perdue, BA and Prior,
             RM and Sabourov, A and Spraker, MC and Weller, HR},
   Title = {Astrophysical S factor for the B11(d,n)C12 reaction below
             135 keV},
   Journal = {Physical Review C},
   Volume = {74},
   Number = {1},
   Pages = {015804},
   Publisher = {American Physical Society (APS)},
   Year = {2006},
   Month = {Fall},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000239511600055&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The B11(d,n)C12 reaction was studied using deuteron beams of
             120-160 keV to determine the absolute astrophysical S
             factors and cross sections for the n0 and n1 neutron groups.
             The slopes of the S factors are consistent with zero for
             both the n0 and n1 cases. The measured S factor for the sum
             of both neutron groups at c.m. energies below 135 keV is
             S=3180±480 keV b. A DWBA calculation is able to reproduce
             the ratio of the S factors found here to those obtained in a
             recent study of the Li7(d,n0,1)Be8 reaction. © 2006 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.74.015804},
   Key = {fds248887}
}

@booklet{Wulf98,
   Author = {Wulf, EA and Godwin, MA and Guillemette, JF and Laymon, CM and Prior,
             RM and Rice, BJ and Spraker, M and Tilley, DR and Weller,
             HR},
   Title = {Astrophysical S factors for the Be-9((p)over-right-arrow,gamma)B-10
             reaction},
   Journal = {Physical Review C},
   Volume = {58},
   Number = {1},
   Pages = {517-523},
   Year = {1998},
   Month = {July},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000074686000057&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevC.58.517},
   Key = {Wulf98}
}

@article{fds47049,
   Author = {A. Sabourov et al. (including H.R. Weller)},
   Title = {Astrophysical S-factor for the 7Li(d,n0)8Be and 7Li(d,n1)8Be
             reactions},
   Journal = {Physical Review C},
   Volume = {73},
   Pages = {015801},
   Publisher = {The American Physical Society},
   Year = {2006},
   Month = {Winter},
   url = {http://www.aps.org},
   Key = {fds47049}
}

@article{fds249044,
   Author = {Wulf, EA and Godwin, MA and Guillemette, JF and Laymon, CM and Prior,
             RM and Rice, BJ and Spraker, M and Tilley, DR and Weller,
             HR},
   Title = {Astrophysical [Formula Presented] factors for the [Formula
             Presented] reaction},
   Journal = {Physical Review C},
   Volume = {58},
   Number = {1},
   Pages = {517-523},
   Publisher = {American Physical Society (APS)},
   Year = {1998},
   Month = {January},
   url = {http://dx.doi.org/10.1103/PhysRevC.58.517},
   Abstract = {Analyzing powers for the [Formula Presented] reaction were
             measured by stopping a 100 keV polarized proton beam in a
             [Formula Presented] target. The measured vector analyzing
             power is [Formula Presented] for capture to the ground
             state, with smaller values at [Formula Presented] for the
             first three excited states. Astrophysical [Formula
             Presented] factors were calculated for each of the final
             states using a direct capture plus resonance model which fit
             both the present analyzing power data and the previously
             reported cross section data. The calculated [Formula
             Presented] factors at [Formula Presented] for capture to the
             ground state and first three excited states were 0.25, 0.34,
             0.27, and 0.10 keV b, respectively, which are considerably
             smaller than previously reported. The observed analyzing
             powers are explained, within experimental uncertainty, as
             arising from the interference of the [Formula Presented]
             direct capture amplitude with the tails of nearby [Formula
             Presented]-wave and [Formula Presented]-wave resonances. ©
             1998 The American Physical Society.},
   Doi = {10.1103/PhysRevC.58.517},
   Key = {fds249044}
}

@article{fds28965,
   Author = {M. W. Ahmed and G. Feldman and V.N. Litvinenko and S.O. Nelson and B.E.
             Norum, B. Perdue and I.V. Pinayev and B. Sawatzky and A. P. Tonchev and Y. Wu and H. R. Weller},
   Title = {Background Reduction in FEL-Generated Gamma-Ray Beam
             Experiments using the Giant High-Peak Power
             Pulses},
   Journal = {Nucl. Instrum. and Methods},
   Volume = {A516},
   Pages = {440},
   Year = {2004},
   Key = {fds28965}
}

@article{fds248880,
   Author = {Young, A and Weller, HR and al, E},
   Title = {Calibration and Performance of the UConn-Yale_PTB-Weizmann-UCL-TUNL
             O-TOC},
   Journal = {Bulletin of the American Physical Society},
   Volume = {52},
   Number = {9},
   Pages = {70},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2007},
   Key = {fds248880}
}

@booklet{Weller80,
   Author = {Weller, HR and Roberson, NR},
   Title = {Capture reactions with protons, neutrons, and alpha
             particles},
   Journal = {Reviews of Modern Physics},
   Volume = {52},
   Number = {4},
   Pages = {699-724},
   Publisher = {American Physical Society (APS)},
   Year = {1980},
   Month = {January},
   ISSN = {0034-6861},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980KU76500003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A review of recent capture experiments which discusses
             polarized proton, polarized neutron, and alpha particle
             capture reactions is presented. The giant dipole resonance
             region is examined chiefly in terms of the information which
             can be obtained from angular distribution measurements.
             Experimental results regarding the relative transition
             matrix elements and their phases are shown to be quite well
             accounted for by the direct-semidirect reaction theory. Some
             of the new information obtained from such experiments in the
             case of the three and four-body problems is described. The
             utility of polarized capture for the study of M1 and E2
             strength is exhibited by examples. Several cases are shown
             in which the E2 strength observed in light nuclei via p
             capture is accounted for by a purely direct E2 mechanism.
             The virtues of polarized neutron capture studies are
             explored, and the results of the first experiments are
             described. Alpha particle capture is compared with p and n
             capture. Fundamental differences in the reaction processes
             are described which can account for the relatively small a1
             coefficients observed in n versus p capture and lack of
             E1-E2 coherence observed in several α-capture experiments.
             © 1980 American Physical Society.},
   Doi = {10.1103/RevModPhys.52.699},
   Key = {Weller80}
}

@booklet{Weller95,
   Author = {Weller, HR and Chasteler, RM},
   Title = {Comment on the7Li(p, γ)8Be reaction
             at energies of astrophysical interest},
   Journal = {Zeitschrift F�R Physik a Hadrons and Nuclei},
   Volume = {352},
   Number = {4},
   Pages = {353-354},
   Publisher = {Springer Nature America, Inc},
   Year = {1995},
   Month = {December},
   ISSN = {0939-7922},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995RY37100002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The results of two recent publication are reconsidered.
             These papers argue that the p-wave effects seen in the7Li(p,
             γ)8Be reaction below Ep=80 keV can be accounted for by
             considering the low-energy tail of the p-wave resonance at
             Ep=441 keV. It is shown that the cross section and analyzing
             power data require an order-of-magnitude more p-wave
             strength when considered together. © 1995
             Springer-Verlag.},
   Doi = {10.1007/BF01299749},
   Key = {Weller95}
}

@article{fds249006,
   Author = {Mirazita, M and Ronchetti, F and Rossi, P and de Sanctis, E and Adams,
             G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop,
             B and Audit, G and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow,
             S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bertozzi, W and Bianchi, N and Biselli,
             AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and de Vita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Deppman, A and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger,
             M and Dytman, S and Dzyubak, OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Feuerbach,
             RJ and Ficenec, J and Forest, TA and Funsten, H and Gai, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hersman,
             FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ilieva, Y and Ito, MM and Jenkins, D},
   Title = {Complete angular distribution measurements of two-body
             deuteron photodisintegration between 0.5 and 3
             GeV},
   Journal = {Physical Review C},
   Volume = {70},
   Number = {1},
   Pages = {014005},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000223590600017&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Nearly complete angular distributions of the two-body
             deuteron photodisintegration differential cross section have
             been measured using the CEBAF Large Acceptance Spectrometer
             detector and the tagged photon beam at the Thomas Jefferson
             National Accelerator Facility. The data cover photon
             energies between 0.5 and 3.0 GeV and center-of-mass proton
             scattering angles 10°-160°. The data show a persistent
             forward-backward angle asymmetry over the explored energy
             range, and are well described by the nonperturbative quark
             gluon string model.},
   Doi = {10.1103/PhysRevC.70.014005},
   Key = {fds249006}
}

@article{fds43019,
   Author = {B. A. Perdue and M. W. Ahmed and A. P. Tonchev and H. R. Weller and G.
             Feldman, V. N. Litvinenko and I. V. Pinayev and Be. E. Norm and R. M.
             Prior and M. C. Spraker and B. D Sawatzky},
   Title = {Compton Scattering of Polarized gamma rays by 16O for
             Eg=25-40 MeV},
   Journal = {Physical Review C},
   Volume = {70},
   Pages = {064305},
   Publisher = {American Physical Society},
   Year = {2004},
   Month = {December},
   url = {http://aps.org},
   Abstract = {www.aps.org},
   Key = {fds43019}
}

@booklet{Ward81,
   Author = {Ward, L and Tilley, DR and Skopik, DM and Roberson, NR and Weller,
             HR},
   Title = {Confirmation of the photoneutron cross section for He4 below
             33 MeV},
   Journal = {Physical Review C},
   Volume = {24},
   Number = {1},
   Pages = {317-320},
   Publisher = {American Physical Society (APS)},
   Year = {1981},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1981LW41200039&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A recently reported measurement of the photoneutron cross
             section for He4 indicates a value of about 1.0 mb for Ex of
             23 to 33 MeV. This result, when combined with the previously
             reported (,p) cross section in this energy region, implies a
             (,p)-to-(,n) cross section ratio of 1.6 to 1.9 in the 26 to
             29 MeV region of He4. We have used the inverse reaction
             He3(n,)He4 to measure the photoneutron cross section for
             He4. Our detailed balanced results confirm the recently
             reported measurements. [NUCLEAR REACTIONS He3(n,)He4;
             measured (E;), E=6.0 to 17.0 MeV. Results confirm the most
             recent He4(,n)He3 measurements.] © 1981 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.24.317},
   Key = {Ward81}
}

@booklet{Schmid96,
   Author = {Schmid, GJ and Chasteler, RM and Laymon, CM and Weller, HR and Moore,
             EF and Bybee, CR and Drake, JM and Tilley, DR and Vavrina, G and Wallace,
             PM},
   Title = {Correction factors for γ-ray relative intensities in the
             66Ga radioisotope},
   Journal = {Nuclear Physics A},
   Volume = {607},
   Number = {2},
   Pages = {139-151},
   Publisher = {Elsevier BV},
   Year = {1996},
   Month = {September},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996VJ13000002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We present here strong evidence that recently published
             values for the relative intensities of γ-ray lines in the
             66Ga(β+ + EC)66Zn decay are incorrect at the higher
             energies (∼ 30% too low at 4.8 MeV). In particular, we
             find that our current results are consistent with a set of
             correction factors which were first suggested 20 years ago,
             but have gone largely ignored until now. Our validation of
             these little known correction factors will have bearing on
             experiments which use the 66Ga radioisotope to extrapolate
             absolute detector efficiencies to higher energies. In
             particular, we discuss the conclusions of a recent D(p,
             γ)3He experiment which will be strongly affected by our
             current results. The astrophysical S-factor data derived
             from this D(p, γ)3He experiment are now seen to be
             systematically too low by ∼ 30%.},
   Doi = {10.1016/0375-9474(96)00214-X},
   Key = {Schmid96}
}

@booklet{Collins82,
   Author = {Collins, MT and Manglos, S and Roberson, NR and Sandorfi, AM and Weller,
             HR},
   Title = {Corrections to the B11(p, 0)C12 cross section and its
             implications},
   Journal = {Physical Review C},
   Volume = {26},
   Number = {2},
   Pages = {332-338},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982PC05900003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We have performed two independent measurements of the B11(p,
             0)C12 reaction over the energy range of Ep=5-14 MeV. The two
             measurements are in good agreement with each other and
             indicate that the previously accepted results are in error.
             The new values for the 0 cross section reported here resolve
             several outstanding conflicts. Their implications are
             discussed. NUCLEAR REACTIONS B11(p, 0)C12, 5Ep14 MeV;
             measured E, absolute cross sections for dd (90°, E0), dd
             (90°, E1). © 1982 The American Physical
             Society..},
   Doi = {10.1103/PhysRevC.26.332},
   Key = {Collins82}
}

@article{fds248877,
   Author = {Stave, S and Ahmed, MW and Antolak, AJ and Blackston, MA and Crowell,
             AS and Doyle, BL and Henshaw, SS and Howell, CR and Kingsberry, P and Perdue, BA and Rossi, P and Prior, RM and Spraker, MC and Weller,
             HR},
   Title = {Cross section measurements of the B10(d,n0)C11 reaction
             below 160 keV},
   Journal = {Physical Review C},
   Volume = {77},
   Number = {5},
   Pages = {054607},
   Publisher = {American Physical Society (APS)},
   Year = {2008},
   Month = {May},
   ISSN = {0556-2813},
   url = {http://www.aps.org},
   Abstract = {New data were taken at the Triangle Universities Nuclear
             Laboratory to investigate the plausibility of using low
             energy deuterons and the B10(d,n)C11 reaction as a portable
             source of 6.3 MeV neutrons. Analysis of the data at and
             below incident deuteron energies of 160 keV indicates an n0
             neutron cross section that is lower than previous estimates
             by at least three orders of magnitude. In separate runs,
             deuterons with two different energies (160 and 140 keV) were
             stopped in a B10 target. The resulting n0 neutrons of
             approximately 6.3 MeV were detected at angles between 0°
             and 150°. The angle integrated yields were used to
             determine the astrophysical S factor for this reaction
             assuming a constant value for the S factor below 160 keV.
             The cross sections reported between 130 and 160 keV were
             calculated using the extracted value of the S factor. The
             measured n0 cross section is several orders of magnitude
             smaller than previous results, thus eliminating B10(d,n)C11
             as a portable source of intense neutrons with low energy
             deuteron beams on the order of tens of microamps. In order
             to gain insight into the reaction dynamics at these low
             energies the cross section results have been compared with
             results from calculations using the distorted wave Born
             approximation (DWBA) and a detailed Hauser-Feshbach
             calculation performed by the authors. The angular
             distribution is consistent with the Hauser-Feshbach
             calculation suggesting a statistical compound nucleus
             reaction rather than a direct reaction. © 2008 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.77.054607},
   Key = {fds248877}
}

@booklet{Rice97a,
   Author = {Rice, BJ and Weller, HR},
   Title = {Determination of the asymptoticD- toS-state ratio for3He
             from the reaction1H(d→,γ)3He atEd,lab=80–0
             keV},
   Journal = {Physical Review C},
   Volume = {55},
   Number = {5},
   Pages = {2700-2703},
   Publisher = {American Physical Society (APS)},
   Year = {1997},
   Month = {May},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1997XB19000069&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.55.2700},
   Key = {Rice97a}
}

@article{fds248892,
   Author = {Bradford, R and Schumacher, RA and McNabb, JWC and Todor, L and Adams,
             G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop,
             B and Asryan, G and Audit, G and Avakian, H and Bagdasaryan, H and Baillie,
             N and Ball, JP and Baltzell, NA and Barrow, S and Batourine, V and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Branford, D and Briscoe, WJ and Brooks, WK and Bültmann, S and Burkert, VD and Butuceanu, C and Calarco, JR and Careccia, SL and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Coleman, A and Coltharp, P and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and Devita,
             R and Sanctis, ED and Degtyarenko, PV and Denizli, H and Dennis, L and Deur, A and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge,
             GE and Donnelly, J and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak, OP and Egiyan, H and Egiyan, KS and Elouadrhiri,
             L and Empl, A and Eugenio, P and Fatemi, R and Fedotov, G and Feldman, G and Feuerbach, RJ and Forest, TA and Funsten, H and Garçon, M and Gavalian,
             G and Gilfoyle, GP and Giovanetti, KL and Girod, FX and Goetz, JT and Golovatch, E and Gonenc, A and Gothe, RW and Griffioen, KA and Guidal,
             M and Guillo, M and Guler, N and Guo, L},
   Title = {Differential cross sections for γ+p→K++Y for Λ and Σ0
             hyperons},
   Journal = {Physical Review C},
   Volume = {73},
   Number = {3},
   Pages = {035202},
   Publisher = {American Physical Society (APS)},
   Year = {2006},
   Month = {Winter},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000236466900065&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {High-statistics cross sections for the reactions
             γ+p→K++Λ and γ+p→K++Σ0 have been measured using CLAS
             at Jefferson Lab for center-of-mass energies W between 1.6
             and 2.53 GeV, and for -0.85<cosθK+c.m.<+0.95. In the K+Λ
             channel we confirm a resonance-like structure near W=1.9 GeV
             at backward kaon angles. The position and width of this
             structure change with angle, indicating that more than one
             resonance is likely playing a role. The K+Λ channel at
             forward angles and all energies is well described by a
             t-channel scaling characteristic of Regge exchange, whereas
             the same scaling applied to the K+Σ0 channel is less
             successful. Several existing theoretical models are compared
             to the data, but none provide a good representation of the
             results. © 2006 The American Physical Society.},
   Doi = {10.1103/PhysRevC.73.035202},
   Key = {fds248892}
}

@booklet{Rice97,
   Author = {Rice, BJ and Wulf, EA and Canon, RS and Kelley, JH and Prior, RM and Spraker, M and Tilley, DR and Weller, HR},
   Title = {Direct determination of the doublet and quartet [Formula
             Presented] cross sections in [Formula Presented]-[Formula
             Presented] radiative capture at near-thermal
             energies},
   Journal = {Physical Review C},
   Volume = {56},
   Number = {6},
   Pages = {R2917-R2919},
   Publisher = {American Physical Society (APS)},
   Year = {1997},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000071132000003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Data obtained from studies of the [Formula Presented] and
             the [Formula Presented] reactions have been used to extract
             the transition amplitudes corresponding to [Formula
             Presented] (doublet) and [Formula Presented] (quartet)
             [Formula Presented] radiative capture. Protons (deuterons)
             of 40 keV (80 keV) were stopped in [Formula Presented] ice
             targets. Angular distributions of [Formula Presented],
             [Formula Presented] [Formula Presented], and [Formula
             Presented] were fit simultaneously in terms of the four
             possible [Formula Presented]-wave capture amplitudes and the
             two [Formula Presented] and [Formula Presented] possible
             [Formula Presented]-wave capture amplitudes. The results
             obtained at [Formula Presented] keV indicate that the
             [Formula Presented] capture cross section is 13.77 [Formula
             Presented] 0.66 nb, while the [Formula Presented] capture
             cross section is 6.74 [Formula Presented] 0.44 nb. These
             results agree with the predictions of a recent three-body
             theoretical calculation which includes two-body currents
             [e.g., meson-exchange currents (MEC’s)]. They also agree
             with the previous experimental determination of the doublet
             and quartet fusion rates obtained using the
             Wolfenstein-Gerstein effect to vary the relative population
             of [Formula Presented] and [Formula Presented] nuclear spins
             in the [Formula Presented]-[Formula Presented]-[Formula
             Presented] molecule prior to fusion. © 1997 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.56.R2917},
   Key = {Rice97}
}

@booklet{Weller83,
   Author = {Weller, HR and Seyler, RG and Moreh, R},
   Title = {Direct-semidirect model angular distributions for radiative
             capture or photonuclear reactions involving nonzero target
             or residual spins},
   Journal = {Physical Review C},
   Volume = {28},
   Number = {5},
   Pages = {1959-1962},
   Publisher = {American Physical Society (APS)},
   Year = {1983},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1983RQ00900009&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A recent study of (, n0) reactions on Pb207 and Pb208
             produced a direct-semidirect model calculation of the
             angular distribution (the a2 coefficient) which was vastly
             different for these two cases. In this paper we offer the
             formal proof that this is incorrect. It is shown that the
             angular distribution involving a target with spin is exactly
             equal to that obtained if the target is treated as spin zero
             with the residual spin being the single particle total
             angular momentum in the final state. A corrected calculation
             for a2 is presented for the case of Pb208(n0)Pb207 and
             Pb207(n0)Pb206. NUCLEAR REACTIONS Formal derivation of the
             relationship between the angular distribution for radiative
             capture involving targets with and without spin for the
             direct-semidirect model. Errors in the literature are
             corrected. © 1983 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.28.1959},
   Key = {Weller83}
}

@booklet{Schmid96b,
   Author = {Schmid, GJ and Viviani, M and Rice, BJ and Chasteler, RM and Godwin, MA and Kiang, GC and Kiang, LL and Kievsky, A and Laymon, CM and Prior, RM and Schiavilla, R and Tilley, DR and Weller, HR},
   Title = {Effects of Non-nucleonic Degrees of Freedom in
             theD(p→,γ)H3eandp(d→,γ)H3eReactions},
   Journal = {Physical Review Letters},
   Volume = {76},
   Number = {17},
   Pages = {3088-3091},
   Publisher = {American Physical Society (APS)},
   Year = {1996},
   Month = {April},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996UF74400011&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevlett.76.3088},
   Key = {Schmid96b}
}

@booklet{Schmid96a,
   Author = {Schmid, GJ and Viviani, M and Rice, BJ and Chasteler, RM and Godwin, MA and Kiang, GC and Kiang, LL and Kievsky, A and Laymon, CM and Prior, RM and Schiavilla, R and Tilley, DR and Weller, HR},
   Title = {Effects of nonnucleonic degrees of freedom in the
             D((p)over-right-arrow,gamma)He-3 and p((d)over-right-arrow,gamma)He-3
             reactions (vol 76, pg 3088, 1996)},
   Journal = {Physical Review Letters},
   Volume = {77},
   Number = {3},
   Pages = {586-586},
   Year = {1996},
   Month = {July},
   Key = {Schmid96a}
}

@booklet{King83,
   Author = {King, SE and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Effects of the He3 D state in the reaction
             H2(p,γ)He3},
   Journal = {Physical Review Letters},
   Volume = {51},
   Number = {10},
   Pages = {877-880},
   Publisher = {American Physical Society (APS)},
   Year = {1983},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1983RE52300010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Angular distributions of the reaction H2(p,γ)He3 have been
             measured for Ep from 6.5 to 16 MeV. A comparison of the
             extracted a2 coefficients with an effective two-body direct
             calculation indicates a sensitivity to the inclusion of
             D-state components in the He3 wave function. These
             calculations use He3 bound-state wave functions generated
             from Faddeev-type equations. The theoretical three-body He3
             ground-state wave functions having D-state probabilities of
             5%-9% (D2=-0.224 to -0.236) are consistent with the present
             data. © 1983 The American Physical Society.},
   Doi = {10.1103/PhysRevLett.51.877},
   Key = {King83}
}

@article{fds249002,
   Author = {Prior, RM and Spraker, MC and Amthor, AM and Keeter, KJ and Nelson, SO and Sabourov, A and Sabourov, K and Tonchev, A and Ahmed, M and Kelley, JH and Tilley, DR and Weller, HR and Hofmann, HM},
   Title = {Energy dependence of the astrophysical S factor for
             the6Li(p, γ)7Be reaction},
   Journal = {Physical Review C},
   Volume = {70},
   Number = {5},
   Pages = {055801-055801},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {November},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000226161000065&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Polarized proton beams with energies from 80 to 130 keV have
             been used to determine the slope of the astrophysical S
             factor for the 6Li(p, γ,0)7Be and 6Li(p,γ1) 7Be reactions.
             The slope was determined from the relative yields at five
             incident proton energies. The slope of the S factor was
             found to be negative. The analyzing power measurements
             indicate that the reaction proceeds predominately by s-wave
             capture. The negative slope does not appear to be due to
             low-binding-energy effects, the effects of nearby
             resonances, or electron screening of the nuclei. A
             resonating group model calculation demonstrates a new
             mechanism for producing a negative slope at astrophysically
             relevant energies in radiative capture reactions.},
   Doi = {10.1103/PhysRevC.70.055801},
   Key = {fds249002}
}

@booklet{Tilley93,
   Author = {Tilley, DR and Weller, HR and Cheves, CM},
   Title = {Energy levels of light nuclei A = 16-17},
   Journal = {Nuclear Physics A},
   Volume = {564},
   Number = {1},
   Pages = {1-183},
   Publisher = {Elsevier BV},
   Year = {1993},
   Month = {November},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993MN07100001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Compilation of energy levels of A = 16 and 17 nuclei, with
             emphasis on the review of material leading to information
             about the structure of theA = 16 and 17 systems. ©
             1993.},
   Doi = {10.1016/0375-9474(93)90073-7},
   Key = {Tilley93}
}

@booklet{Tilley95,
   Author = {Tilley, DR and Weller, HR and Cheves, CM and Chasteler,
             RM},
   Title = {Energy levels of light nuclei A = 18-19},
   Journal = {Nuclear Physics A},
   Volume = {595},
   Number = {1},
   Pages = {1-170},
   Publisher = {Elsevier BV},
   Year = {1995},
   Month = {December},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995TK10000001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Compilation of energy levels of A = 18 and 19 nuclei, with
             emphasis on the review of material leading to information
             about the structure of the A = 18 and 19 systems. ©
             1995.},
   Doi = {10.1016/0375-9474(95)00338-1},
   Key = {Tilley95}
}

@booklet{Tilley87,
   Author = {Tilley, DR and Weller, HR and Hasan, HH},
   Title = {Energy levels of light nuclei A = 3},
   Journal = {Nuclear Physics A},
   Volume = {474},
   Number = {1},
   Pages = {1-60},
   Publisher = {Elsevier BV},
   Year = {1987},
   Month = {November},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1987L950100001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A compilation of information on A = 3 nuclei is presented.
             Emphasis is on possible structure of A = 3 systems and
             final-state interactions in three-particle reactions. No
             excited states of 3H and 3He have been established, and no
             firm evidence for the existence of the trineutron or
             triproton has been obtained. © 1987.},
   Doi = {10.1016/0375-9474(87)90193-X},
   Key = {Tilley87}
}

@article{fds249048,
   Author = {Tilley, DR and Cheves, CM and Godwin, JL and Hale, GM and Hofmann, HM and Kelley, JH and Sheu, CG and Weller, HR},
   Title = {Energy levels of light nuclei A = 5, 6, 7},
   Journal = {Nuclear Physics A},
   Volume = {708},
   Number = {1-2},
   Pages = {3-163},
   Publisher = {Elsevier BV},
   Year = {2002},
   Month = {September},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000177798600001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A review of the evidence on the properties of the nuclei A =
             5, 6 and 7, with emphasis on material leading to information
             about the structure of the A = 5, 6, 7 systems. (References
             closed 23 August 2001). © 2002 Elsevier Science B.V. All
             rights reserved.},
   Doi = {10.1016/S0375-9474(02)00597-3},
   Key = {fds249048}
}

@article{fds248998,
   Author = {Tilley, DR and Kelley, JH and Godwin, JL and Millener, DJ and Purcell,
             JE and Sheu, CG and Weller, HR},
   Title = {Energy levels of light nuclei A = 8,9,10},
   Journal = {Nuclear Physics A},
   Volume = {745},
   Number = {3-4},
   Pages = {155-362},
   Publisher = {Elsevier BV},
   Year = {2004},
   Month = {December},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000225431600001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A review of the evidence on the properties of the nuclei A =
             8, 9 and 10, with emphasis on material leading to
             information about the structure of the A = 8, 9, 10 systems.
             © 2004 Elseveir B.V. All rights reserved.},
   Doi = {10.1016/j.nuclphysa.2004.09.059},
   Key = {fds248998}
}

@booklet{Tilley98,
   Author = {Tilley, DR and Cheves, CM and Kelley, JH and Raman, S and Weller,
             HR},
   Title = {Energy levels of light nuclei, A = 20},
   Journal = {Nuclear Physics A},
   Volume = {636},
   Number = {3},
   Pages = {249-364},
   Publisher = {Elsevier BV},
   Year = {1998},
   Month = {June},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000074520400001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Compilation of energy levels of A = 20 nuclei, with emphasis
             on the review of material leading to information about the
             structure of the A = 20 systems. © 1998 Elsevier Science
             B.V.},
   Doi = {10.1016/S0375-9474(98)00129-8},
   Key = {Tilley98}
}

@booklet{Cheves97,
   Author = {Cheves, GM and Sheu, CW and Weller, HR and Tilley,
             DR},
   Title = {Energy levels of light nuclei, A=3-20, available from
             Triangle Universities Nuclear Laboratory on the World Wide
             Web.},
   Journal = {Abstracts of Papers of the American Chemical
             Society},
   Volume = {213},
   Pages = {74-NUCL},
   Year = {1997},
   Month = {April},
   ISSN = {0065-7727},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1997WP18701414&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Cheves97}
}

@booklet{Tilley92,
   Author = {TILLEY, DR and WELLER, HR and HALE, GM},
   Title = {ENERGY-LEVELS OF LIGHT-NUCLEI A = 4},
   Journal = {Nuclear Physics A},
   Volume = {541},
   Number = {1},
   Pages = {1-104},
   Year = {1992},
   Month = {May},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1992JA61000001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1016/0375-9474(92)90635-W},
   Key = {Tilley92}
}

@article{fds248894,
   Author = {Weller, STEAIH},
   Title = {Erratum: Radiative decays of the Sigma-0 (1385) and Lamda
             (1520) hyperons [PRC 71, 054609 (2005)]},
   Journal = {The Physical Review C},
   Volume = {72},
   Pages = {039902},
   Year = {2005},
   url = {http://aps.org/},
   Key = {fds248894}
}

@article{fds249023,
   Author = {Dugger, M and Ball, JP and Collins, P and Pasyuk, E and Ritchie, BG and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Avakian, H and Bagdasaryan, H and Baillie, N and Baltzell, NA and Barrow, S and Batourine, V and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi,
             N and Biselli, AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Bultmann,
             S and Burkert, VD and Butuceanu, C and Calarco, JR and Careccia, SL et
             al.},
   Title = {eta ' photoproduction on the proton for photon energies from
             1.527 to 2.227 GeV},
   Journal = {Physical Review Letters},
   Volume = {96},
   Number = {6},
   Pages = {222002},
   Publisher = {APS},
   Year = {2006},
   Month = {February},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000235394100019&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevLett.96.062001},
   Key = {fds249023}
}

@article{fds248888,
   Author = {Weller, MDEAIH},
   Title = {Eta prime Photoproduction on the proton for Photon Energies
             from 1.527 to 2.227 GeV},
   Journal = {Physical Review Letters},
   Volume = {96},
   Pages = {062001},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2006},
   Month = {Fall},
   url = {http://www.aps.org/},
   Key = {fds248888}
}

@article{fds249035,
   Author = {Nelson, SO and Wulf, EA and Kelley, JH and Weller,
             HR},
   Title = {Evaluations of thermonuclear proton capture reaction rates
             for 2 H, 7 Li, 9 Be, and
             11 B},
   Journal = {Nuclear Physics A},
   Volume = {679},
   Number = {2},
   Pages = {199-211},
   Publisher = {Elsevier BV},
   Year = {2000},
   Month = {November},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000165513200006&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Recent measurements and analyses of proton induced
             radiative-capture reactions in the vicinity of Ep=100 keV
             performed at the Triangle Universities Nuclear Laboratory
             are used to calculate the thermonuclear reaction rates of
             relevance in astrophysical plasmas for the reactions: D(p,
             γ )3 He, 7 Li(p, γ0,1 )8 Be, 9 Be(p, γ0,1,2,3 )10 B, and
             11 B(p, γ0,1 )12 C. Higher energy data from previous
             measurements were included when possible. The
             Maxwellian-averaged reaction rates, obtained using numerical
             integration techniques, are presented in tabular form as a
             function of temperature. Capture to the ground and excited
             states are treated separately, thus allowing the
             determination of inverse reaction rates for specified target
             states. The high temperature cut-offs of the reaction rate
             calculations are discussed. The results are compared to
             those presented in the recent NACRE compilation, where
             appropriate, and new analytical approximations for the total
             reaction rates are presented in a standard form. © 2000
             Elsevier Science B.V.},
   Doi = {10.1016/S0375-9474(00)00341-9},
   Key = {fds249035}
}

@booklet{Mcbroom80,
   Author = {McBroom, RC and Weller, HR and Manglos, S and Roberson, NR and Wender,
             SA and Tilley, DR and Skopik, DM and Arnold, LG and Seyler,
             RG},
   Title = {Evidence for a 2+ resonance in He4 at 40
             MeV},
   Journal = {Physical Review Letters},
   Volume = {45},
   Number = {4},
   Pages = {243-246},
   Publisher = {American Physical Society (APS)},
   Year = {1980},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980KE58700009&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The fore-aft asymmetry in the angular distribution of the
             reaction H3(p,0)He4 has been measured as a function of
             energy for protons from 17 to 31 MeV. The same quantity was
             also measured using the reaction He4(e,H3)pe. These
             asymmetry data were fitted with an expression which
             consisted of a term which varied slowly with energy plus a
             2+ resonance having parameters of c.m.=3.5 MeV and
             Ex(res)=40.2 MeV. © 1980 The American Physical
             Society.},
   Doi = {10.1103/PhysRevLett.45.243},
   Key = {Mcbroom80}
}

@booklet{Wagenaar89,
   Author = {Wagenaar, DJ and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Evidence for M1 strength in the (p3,)4He
             reaction},
   Journal = {Physical Review C},
   Volume = {39},
   Number = {2},
   Pages = {352-358},
   Publisher = {American Physical Society (APS)},
   Year = {1989},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1989T184900007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Angular distributions of cross sections and analyzing powers
             were measured for the H3(p,)4He reaction at incident proton
             energies of 2.0, 5.0, and 9.0 MeV. The 90°analyzing power
             was measured at 11 energies between 0.8 and 9.0 MeV. A
             transition matrix element analysis indicated that the
             inclusion of M1 strength gave better fits and eliminated the
             anomalously large D23 (E2) strength reported in earlier
             work. An E1-plus-E2 direct capture calculation was
             performed. It is shown that this calculation can be brought
             into agreement with the data if an M1 strength comparable to
             that found in the T-matrix element analysis (0.51.0% of the
             total capture cross section) is added. © 1989 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.39.352},
   Key = {Wagenaar89}
}

@article{fds249028,
   Author = {Lukashin, K and Smith, ES and Adams, GS and Anciant, E and Anghinolfi,
             M and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Ball, J and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bertozzi, W and Bianchi, N and Biselli, A and Boiarinov, S and Bonner,
             BE and Bouchigny, S and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Calarco, JR and Carman, DS and Carnahan, B and Ciciani,
             L and Clark, R and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, J and Degtiarenko, PV and Dennis,
             LC and De Sanctis and E and DeVita, R and Dhuga, KS and Djalali, C and Dodge,
             GE and Domingo, J and Doughty, D and Dragovitsch, P and Dytman, S and Eckhause, M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Fatemi, R and Feuerbach, RJ and Ficenec, J and Fissum, K and Forest, TA and Freyberger, A and Funsten, H and Gaff, S and Gai, M and Gavalian, G and Gilad, S and Gilfoyle, G and Giovanetti, K and Girard, P and Griffioen,
             KA and Guidal, M and Guillo, M and Gyurjyan, V and Hardie, J and Heddle, D and Hersman, FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ito, MM and Jenkins, D and Joo, K and Kelley, J and Khandaker, M and Kim, K and Kim, KY and Kim, W and Klein, A and Klein, FJ and Klusman, M and Kossov, M and Kramer, LH and Kuhn, SE and Laget,
             JM},
   Title = {Exclusive electroproduction of [Formula Presented] mesons at
             4.2 GeV},
   Journal = {Physical Review C},
   Volume = {63},
   Number = {6},
   Pages = {11},
   Publisher = {American Physical Society (APS)},
   Year = {2001},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000169182200050&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We studied the exclusive reaction [Formula Presented] using
             the [Formula Presented] decay mode. The data were collected
             using a 4.2 GeV incident electron beam and the CEBAF Large
             Acceptance Spectrometer (CLAS) at the Thomas Jefferson
             National Accelerator Facility. Our experiment covers the
             range in [Formula Presented] from 0.7 to 2.2 [Formula
             Presented] and W from 2.0 to 2.6 GeV. Taken together with
             all previous data, we find a consistent picture of [Formula
             Presented] production on the proton. Our measurement shows
             the expected decrease of the t slope with the vector-meson
             formation time [Formula Presented] below 2 fm. At [Formula
             Presented] fm, we measure [Formula Presented] The cross
             section dependence on W as [Formula Presented] at [Formula
             Presented] was determined by comparison with [Formula
             Presented] production at HERA after correcting for threshold
             effects. This is the same dependence as observed in
             photoproduction. © 2001 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.63.065205},
   Key = {fds249028}
}

@article{fds248898,
   Author = {Weller, CHEAIH},
   Title = {Exclusive pho-0 Meson Electroproduction from Hydrogen at
             CLAS},
   Journal = {Physics Letters B},
   Volume = {B605},
   Pages = {258},
   Year = {2005},
   url = {http://www.sciencedirect.com/},
   Key = {fds248898}
}

@article{fds248899,
   Author = {Price, JW and Nefkens, BMK and Ducote, JL and Goetz, JT and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis,
             M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov, S and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco,
             JR and Carman, DS and Carnahan, B and Cetina, C and Chen, S and Cole, PL and Coleman, A and Connelly, J and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and de Sanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Dharmawardane, KV and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger,
             M and Dytman, S and Dzyubak, OP and Eckhause, M and Egiyan, H and Egiyan,
             KS and Elouadrhiri, L and Empl, A and Eugenio, P and Farhi, L and Fatemi,
             R and Feuerbach, RJ and Forest, TA and Frolov, V and Funsten, H and Gaff,
             SJ and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Gordon, CIO and Gothe, R and Griffioen, K and Guidal, M and Guillo, M and Guler, N and Guo,
             L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hancock, D and Hardie, J and Heddle, D and Hersman, FW and Hicks, K and Hleiqawi, I and Holtrop, M and Hu, J and Hyde-Wright, CE and Ilieva, Y and Ireland, D and Ito, MM and Jenkins, D and Joo, K},
   Title = {Exclusive photoproduction of the cascade (Ξ)
             hyperons},
   Journal = {Physical Review C},
   Volume = {71},
   Number = {5},
   Pages = {058201},
   Publisher = {American Physical Society (APS)},
   Year = {2005},
   Month = {Winter},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000229440200074&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We report on the first measurement of exclusive Ξ-(1321)
             hyperon photoproduction in γp→K+K+Ξ- for 3.2<Eγ<3.9
             GeV. The final state is identified by the missing mass in
             p(γ,K+K+)X measured with the CLAS detector at Jefferson
             Laboratory. We have detected a significant number of the
             ground state Ξ-(1321)12+ and have estimated the total cross
             section for its production. We also have strong evidence for
             the first excited state Ξ-(1530)32+. Photoproduction
             provides a copious source of Ξ's. We discuss the
             possibilities of a search for the recently proposed Ξ5- and
             Ξ5+ pentaquarks. © 2005 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.71.058201},
   Key = {fds248899}
}

@article{fds249003,
   Author = {Sabourov, K and Ahmed, MW and Canon, SR and Crowley, B and Joshi, K and Kelley, JH and Nelson, SO and Perdue, BA and Schreiber, EC and Sabourov,
             A and Tonchev, A and Weller, HR and Wulf, EA and Prior, RM and Spraker, MC and Hofmann, HM and Trini, M},
   Title = {Experimental and theoretical study of the
             2H(d→,γ)4He reaction below Ec.m.=60
             keV},
   Journal = {Physical Review C},
   Volume = {70},
   Number = {6},
   Pages = {064601},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2004},
   Month = {December},
   url = {http://www.aps.org/},
   Abstract = {New measurements of the analyzing powers Ay and T20 have
             been obtained for the 2H(d, γ)4He reaction at a laboratory
             beam energy of 115 keV. A transition matrix element analysis
             results in a unique solution which indicates that the
             reaction proceeds by 55% E2, 29% E1, and 16% M2 radiation.
             These results are shown to be in good agreement with the
             results of a new refined resonating group model calculation.
             The impact of these results on the extrapolated value of the
             astrophysical 5 factor for this reaction is
             discussed.},
   Doi = {10.1103/PhysRevC.70.064601},
   Key = {fds249003}
}

@booklet{Weller82,
   Author = {H. R. Weller},
   Title = {Fast polarized neutron-capture in the giant-resonance
             region},
   Journal = {Institute Of Physics Conference Series},
   Number = {62},
   Pages = {494 -- 504},
   Year = {1982},
   Key = {Weller82}
}

@article{fds248890,
   Author = {Li, TC and Pietralla, N and Tonchev, AP and Ahmed, MW and Ahn, T and Angell, C and Blackston, MA and Costin, A and Keeter, KJ and Li, J and Lisetskiy, A and Mikhailov, S and Parpottas, Y and Perdue, BA and Rainovski, G and Tornow, W and Weller, HR and Wu,
             YK},
   Title = {First evidence for spin-flip M1 strength in
             Ar40},
   Journal = {Physical Review C},
   Volume = {73},
   Number = {5},
   Pages = {054306},
   Publisher = {American Physical Society (APS)},
   Year = {2006},
   Month = {Spring},
   ISSN = {0556-2813},
   url = {http://aps.org},
   Abstract = {The Ar40(γ→,γ′) photon scattering reaction was used to
             search for spin-flip M1 strength in Ar40. The nearly
             monochromatic, linearly polarized photon beam of HIγS, in
             an energy region from 7.7 to 11 MeV, was employed in this
             study. 28 dipole excitations were observed. The azimuthal
             intensity asymmetry indicated that all of these states were
             E1 except for the state at Ex=9.757 MeV. Shell-model
             calculations were used to interpret this state as one
             fragment of the spin-flip M1 strength in Ar40. © 2006 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.73.054306},
   Key = {fds248890}
}

@article{fds248884,
   Author = {Bradford, RK and Schumacher, RA and Adams, G and Amaryan, MJ and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Avakian, H and Bagdasaryan, H and Baillie, N and Ball, JP and Baltzell, NA and Barrow, S and Batourine, V and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Branford, D and Briscoe, WJ and Brooks, WK and Bültmann, S and Burkert, VD and Butuceanu, C and Calarco, JR and Careccia, SL and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Coleman, A and Collins, P and Coltharp, P and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Crede, V and Cummings, JP and Masi, RD and De Sanctis and E and De Vita and R and Degtyarenko, PV and Denizli, H and Dennis, L and Deur, A and Dharmawardane, KV and Dickson, R and Djalali, C and Dodge, GE and Donnelly, J and Doughty, D and Dragovitsch, P and Dugger, M and Dytman,
             S and Dzyubak, OP and Egiyan, H and Egiyan, KS and El Fassi and L and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Fedotov, G and Feldman, G and Feuerbach, RJ and Forest, TA and Funsten, H and Garçon,
             M and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Girod, FX and Goetz, JT and Gonenc, A and Gothe, RW},
   Title = {First measurement of beam-recoil observables Cx and Cz in
             hyperon photoproduction},
   Journal = {Physical Review C},
   Volume = {75},
   Number = {3},
   Pages = {035205},
   Publisher = {American Physical Society (APS)},
   Year = {2007},
   Month = {March},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000245332200061&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Spin transfer from circularly polarized real photons to
             recoiling hyperons has been measured for the reactions
             γ→+p→K++→ andγ →+p → K + +Σ → 0. The data
             were obtained using the CEBAF Large Acceptance Spectrometer
             (CLAS) detector at the Jefferson Lab for center-of-mass
             energies W between 1.6 and 2.53 GeV, and for -0.85cos θ
             K+c.m.<+0.95. For the θ, the polarization transfer
             coefficient along the photon momentum axis, Cz, was found to
             be near unity for a wide range of energy and kaon production
             angles. The associated transverse polarization coefficient
             Cx is smaller than Cz by a roughly constant difference of
             unity. Most significantly, the total polarization vector,
             including the induced polarization P, has magnitude
             consistent with unity at all measured energies and
             production angles when the beam is fully polarized. For the
             0 this simple phenomenology does not hold. All existing
             hadrodynamic models are in poor agreement with these
             results. © 2007 The American Physical Society.},
   Doi = {10.1103/PhysRevC.75.035205},
   Key = {fds248884}
}

@article{fds249039,
   Author = {Schreiber, EC and Canon, RS and Crowley, BT and Howell, CR and Kelley,
             JH and Litvinenko, VN and Nelson, SO and Park, SH and Pinayev, LV and Prior, RM and Sabourov, K and Spraker, M and Tornow, W and Wu, Y and Wulf,
             EA and Weller, HR},
   Title = {First Measurement of the Near-Threshold Analyzing Power
             Using a Free-Electron Laser Based g-Ray Source},
   Journal = {Phys. Rev. C},
   Volume = {61},
   Pages = {061604},
   Year = {2000},
   Key = {fds249039}
}

@article{fds249018,
   Author = {Carman, DS and Joo, K and Mestayer, MD and Raue, BA and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Armstrong, DS and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Bagdasaryan,
             H and Ball, JP and Barrow, SP and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Bennhold, C and Bianchi, N and Biselli,
             AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carnahan, B and Cazes, A and Cetina, C and Ciciani, L and Clark, R and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and DeSanctis, E and Degtyarenko, PV and Denizli, H and Dennis, L and DeVita, R and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge,
             GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak, OP and Eckhause, M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Fedotov, G and Feuerbach, RJ and Ficenec, J and Forest, TA and Funsten, H and Gaff, SJ and Gai, M and Garçon, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Golovach, E and Gordon, CIO and Griffioen, K and Grimes, S and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle,
             D},
   Title = {First measurement of transferred polarization in the
             exclusive e  p → e′ K + Λ
              reaction},
   Journal = {Physical Review Letters},
   Volume = {90},
   Number = {13},
   Pages = {131804},
   Publisher = {American Physical Society},
   Year = {2003},
   Month = {April},
   url = {http://aps.org/},
   Abstract = {Double-polarization measurements in the resonance region for
             the p(→e,e′K + )→∧ reaction were performed. The data
             showed a large degree of ∧ polarization, which is maximal
             along the virtual phonon direction.},
   Key = {fds249018}
}

@article{fds152671,
   Author = {M. A. Blackston et al. and including H. R. Weller},
   Title = {First Observation of the splitting of the E1 p-wave
             amplitudes in low energy deuteron photodisintegration and
             its implications for the Gerasimov-Drell-Hearn Sum Rule
             integrand},
   Journal = {Phys. Rev. C},
   Volume = {78},
   Pages = {034003},
   Publisher = {American Physical Society},
   Year = {2008},
   url = {http://www.aps.org},
   Key = {fds152671}
}

@article{fds248878,
   Author = {Perdue, MABMWABA and Pywell, HRWBBRE and Norum, WAWRISKB and Sawatzky, KWJLSFMVGPYKWBD},
   Title = {First observation of the splittings of the E1 p-wave
             amplitudes in low energy deuteron photodisintegration and
             its implications for the Gerasimov-Drell-Hearn Sum Rule
             integrand},
   Journal = {Phys. Rev.},
   Volume = {C78},
   Number = {034003},
   Year = {2008},
   Key = {fds248878}
}

@booklet{Parker95,
   Author = {Parker, WE and Chadwick, MB and Dietrich, FS and Kammeraad, JE and Luke,
             SJ and Sale, KE and Chasteler, RM and Godwin, MA and Kramer, LH and Schmid,
             GJ and Weller, HR and Kerman, AK},
   Title = {Fluctuation effects in radiative capture to unstable final
             states: A test via the Y89(p,) reaction at Ep=19.6
             MeV},
   Journal = {Physical Review C},
   Volume = {52},
   Number = {1},
   Pages = {252-266},
   Publisher = {American Physical Society (APS)},
   Year = {1995},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995RJ70900034&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We have developed an extended direct-semidirect (DSD) model
             for fast-nucleon capture to virtual single-particle
             configurations that subsequently damp into the compound
             nucleus or (at sufficiently high excitation energies) escape
             into the continuum. The inclusion of final-state fluctuation
             effects is an important feature of this model. To test the
             model we have measured the spectra of gamma rays from
             approximately 10 MeV to the endpoint in the Y89(p,) reaction
             with 19.6 MeV polarized protons from the TUNL tandem
             accelerator. Gamma spectra were measured with a pair of 25.4
             cm×25.4 cm anticoincidence- shielded NaI detectors at
             angles of 30°, 55°, 90°, 125°, and 150°with respect to
             the incident beam. The spectra show significant analyzing
             powers and forward peaking of the angular distributions.
             These features allow for the discrimination between
             compounds processes and direct processes. Analyzing powers
             and fore-aft asymmetries were observed for gamma energies
             below those associated with direct-semidirect transitions to
             known bound final states. We have also performed
             Hauser-Feshbach calculations of the statistical component of
             the gamma emission, which dominates below approximately 15
             16 MeV. The extended DSD model reproduces the spectral
             shapes and analyzing powers above this energy quite well.
             There is no evidence in the present reaction that additional
             mechanisms, such as multistep compound or multistep direct
             emission, are required. © 1995 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.52.252},
   Key = {Parker95}
}

@article{fds43131,
   Author = {H.R. Weller},
   Title = {Future plans for measuring the GDH Integrand on the Dueteron
             at HIGS},
   Pages = {269},
   Booktitle = {Proceedings of the Third International Symposium on the GDH
             Sum Rule and its extensions},
   Publisher = {World Scientific Publishing Co. Ptc., Ltd.},
   Editor = {S. Kuhn},
   Year = {2005},
   Key = {fds43131}
}

@booklet{Headly88,
   Author = {Headly, DM and Sheline, RK and Tabor, SL and Httmeier, UJ and Gross, CJ and Moore, EF and Wildenthal, BH and Weller, HR and Whitton, RM and Ragnarsson, I},
   Title = {Gamma decay of high spin states in Mg25 above 6.1
             MeV},
   Journal = {Physical Review C},
   Volume = {38},
   Number = {4},
   Pages = {1698-1721},
   Publisher = {American Physical Society (APS)},
   Year = {1988},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1988Q539800018&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {New high spin states in Mg25 (up to 13.3 MeV in excitation)
             have been located using the N12,p)25Mg reaction at a
             laboratory beam energy of 23.5 MeV. Gamma decay from 28
             neutron unbound levels has been observed (24 of which are
             reported here for the first time) up to 7 MeV above the
             neutron drip line. Tentative identification of the yrast
             line up to (17/2+ has been made, along with an extension of
             the ground-state rotational band up to (15/2+ and the
             location of several other states with J=(11/2+ and (15/2+.
             Extensive comparison with the s-d shell model and the
             cranked Nilsson-Strutinsky model has been made for the
             states in Mg25. Very good agreement is observed between the
             shell model and experimental level energies and -decay
             branches. Potential energy surfaces for J=(11/2+, (13/2+,
             and (17/2+ in the cranked Nilsson-Strutinsky model show a
             noncollective oblate local minimum at (μ2,)=(0.34,60°) for
             (11/2+ and prolate configurations at (0.2,-120°) for (13/2+
             and (17/2+. These states compete with the collective
             ground-state band members at 0 and become yrast for (17/2+.
             The stabilization of these prolate aligned states relative
             to more deformed, collective states of the same spin results
             from shell effects at high spin in the cranking model, and
             provides a description of the configuration in the yrast 8+;
             (11/2+, (13/2+, and (17/2+; and 4+ states in Mg24, Mg25, and
             Mg26, respectively. © 1988 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.38.1698},
   Key = {Headly88}
}

@booklet{Litvinenko97,
   Author = {V. N. Litvinenko and B. Burnham and M. Emamian and N. Hower and J. M. J. Madey and P. Morcombe and P. G. Oshea and S. H.
             Park and R. Sachtschale and K. D. Straub and G. Swift and P.
             Wang and Y. Wu and R. S. Canon and C. R. Howell and N. R.
             Roberson and E.},
   Title = {Gamma-ray production in a storage ring free-electron
             laser},
   Journal = {Physical Review Letters},
   Volume = {78},
   Number = {24},
   Pages = {4569 -- 4572},
   Year = {1997},
   Month = {June},
   Key = {Litvinenko97}
}

@booklet{Jury87,
   Author = {Jury, JW and Kuo, PC and McNeill, KG and Ross, CK and Weller, HR and Raman,
             S},
   Title = {Ground-state photoneutron reactions in sup18O.},
   Journal = {Physical Review C},
   Volume = {36},
   Number = {4},
   Pages = {1243-1248},
   Year = {1987},
   Month = {October},
   ISSN = {0556-2813},
   url = {http://www.ncbi.nlm.nih.gov/pubmed/9954211},
   Doi = {10.1103/physrevc.36.1243},
   Key = {Jury87}
}

@booklet{Balbes91,
   Author = {Balbes, MJ and Feldman, G and Kramer, LH and Weller, HR and Tilley,
             DR},
   Title = {Ground-state widths of He5 and Li5 determined in the
             H3(d,)5He and the He3(d,)5Li reactions},
   Journal = {Physical Review C},
   Volume = {43},
   Number = {1},
   Pages = {343-346},
   Publisher = {American Physical Society (APS)},
   Year = {1991},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1991ET08600040&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We have measured the widths of the 3/2- ground states of He5
             and Li5 using the H3(d,)5He and the He3(d,)5Li reactions at
             Ed=8.6 MeV. The -ray spectra were fitted with a convolution
             of the NaI line-shape response function, as measured with
             the H3(p,)4He reaction, and a Breit-Wigner single-level
             expression. The widths extracted from the spectra were found
             to be n=1.360.19 MeV for He5, and p=2.440.21 MeV for Li5.
             These values, significantly different from previously quoted
             measurements, lead to reduced widths which are equal to
             within error, a result which is consistent with the
             charge-symmetry property of the nuclear force. © 1991 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.43.343},
   Key = {Balbes91}
}

@booklet{Feldman90,
   Author = {FELDMAN, G and BALBES, MJ and KRAMER, LH and WILLIAMS, JZ and WELLER,
             HR and TILLEY, DR},
   Title = {H-3(P,GAMMA)HE-4 REACTION AND THE (GAMMA,P) (GAMMA,N) RATIO
             IN HE-4},
   Journal = {Physical Review C},
   Volume = {42},
   Number = {4},
   Pages = {R1167-R1170},
   Year = {1990},
   Month = {October},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1990EE08600001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevC.42.R1167},
   Key = {Feldman90}
}

@booklet{Whitton93,
   Author = {Whitton, RM and Weller, HR and Hayward, E and Dodge, WR and Kuhn,
             SE},
   Title = {H2(d,γ)4He polarization observables at 20, 30, and 50
             MeV},
   Journal = {Physical Review C},
   Volume = {48},
   Number = {5},
   Pages = {2355-2365},
   Publisher = {American Physical Society (APS)},
   Year = {1993},
   Month = {November},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993MH13600033&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.48.2355},
   Key = {Whitton93}
}

@booklet{Langenbrunner88,
   Author = {Langenbrunner, JL and Feldman, G and Weller, HR and Tilley, DR and Wachter, B and Mertelmeier, T and Hofmann, HM},
   Title = {H2(d→,γ)He4reaction atEd=1.2MeV},
   Journal = {Physical Review C},
   Volume = {38},
   Number = {1},
   Pages = {565-568},
   Publisher = {American Physical Society (APS)},
   Year = {1988},
   Month = {July},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1988P401200064&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.38.565},
   Key = {Langenbrunner88}
}

@booklet{Mcbroom82,
   Author = {McBroom, RC and Weller, HR and Roberson, NR and Tilley,
             DR},
   Title = {H3(p,γ)He4reaction belowEp=30MeV},
   Journal = {Physical Review C},
   Volume = {25},
   Number = {3},
   Pages = {1644-1648},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982NH88800053&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.25.1644},
   Key = {Mcbroom82}
}

@booklet{Wagenaar85,
   Author = {Wagenaar, DJ and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {H3(p→,γ)4He reaction atEp=9.0MeV},
   Journal = {Physical Review C},
   Volume = {32},
   Number = {6},
   Pages = {2155-2157},
   Publisher = {American Physical Society (APS)},
   Year = {1985},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1985AVQ2700042&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.32.2155},
   Key = {Wagenaar85}
}

@booklet{Weller86,
   Author = {Weller, HR and Colby, P and Langenbrunner, J and Huang, ZD and Tilley,
             DR and Santos, FD and Arriaga, A and Eiró, AM},
   Title = {He4 D-state effects in the H2(d,)4He reaction at low
             energies},
   Journal = {Physical Review C},
   Volume = {34},
   Number = {1},
   Pages = {32-37},
   Publisher = {American Physical Society (APS)},
   Year = {1986},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1986D218800004&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The H2(d,) 4He cross section was measured for deuteron
             laboratory energies between 0.7 and 4.5 MeV. Angular
             distributions were obtained at laboratory energies of
             Ed=1.38, 2.05, 9.6, and 15.0 MeV. These data indicate that
             the D state of He4, which can be populated via S-wave
             capture in this reaction, has a large effect on the energy
             and angle dependence of this low energy capture cross
             section. The data are shown to imply an asymptotic D-to-S
             state ratio =-0.2 0.05. The implication of this observation
             for the absolute cross section below 1.0 MeV is discussed.
             © 1986 The American Physical Society.},
   Doi = {10.1103/PhysRevC.34.32},
   Key = {Weller86}
}

@booklet{Headly87,
   Author = {Headly, DM and Sheline, RK and Tabor, SL and Huttmeier, UJ and Gross,
             CJ and Moore, EF and Wildenthal, BH and Weller, HR and Whitton, RM and Ragnarsson, I},
   Title = {High-spin states and rotational coexistence
             in25Mg},
   Journal = {Physics Letters B},
   Volume = {198},
   Number = {4},
   Pages = {433-437},
   Publisher = {Elsevier BV},
   Year = {1987},
   Month = {December},
   ISSN = {0370-2693},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1987K955400001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {New high spin states in25Mg have been located above the
             neutron threshold using the12C(14N, pγ)25Mg reaction at
             E=23.5 MeV. The members of the ground state rotational band
             (Kπ= 5 2+have been tentatively identified up to 15 2+. The
             yrast 15 2+(not a member of the ground state band) and 17
             2+states have also been tentatively assigned. These results
             support the interpretation of the new 17 2+state and the
             previously known yrast 13 2+state as fully aligned prolate
             configurations, i.e., prolate particle-hole states with K=I
             and γ=-120°. © 1987.},
   Doi = {10.1016/0370-2693(87)90894-X},
   Key = {Headly87}
}

@article{fds249008,
   Author = {McNabb, JWC and Schumacher, RA and Todor, L and Adams, G and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Auger, T and Avakian,
             H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert,
             VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Ciciani, L and Cole, PL and Coleman, A and Cords, AD and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and de
             Sanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis,
             L and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Eckhause,
             M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio,
             P and Fatemi, R and Feuerbach, RJ and Ficenec, J and Forest, TA and Funsten, H and Gaff, SJ and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, R and Hardie, J and Heddle, D and Heimberg, P and Hersman, FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ilieva, Y and Ito, MM and Jenkins, D and Joo, K and Kelley, JH and Khandaker, M and Kim, KY and Kim, K and Kim, W and Klein,
             A},
   Title = {Hyperon photoproduction in the nucleon resonance
             region},
   Journal = {Physical Review C},
   Volume = {69},
   Number = {4},
   Pages = {042201},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000221427500008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {High-statistics cross sections and recoil polarizations for
             the reactions γ+p → K + + Λ and γ+p → K + Σ 0 have
             been measured at CLAS for center-of-mass energies between
             1.6 and 2.3 GeV. In the K + λ channel we confirm a
             resonance-like structure near W= 1.9 GeV at backward kaon
             angles. Our data show more complex s-and u- channel behavior
             than previously seen, since structure is also present at
             forward angles, but not at central angles. The position and
             width change with angle, indicating that more than one
             resonance is playing a role. Large positive Λ polarization
             at backward angles, which is also energy dependent, is
             consistent with sizable s- or u-channel contributions.
             Presently available model calculations cannot explain these
             aspects of the data.},
   Doi = {10.1103/PhysRevC.69.042201},
   Key = {fds249008}
}

@article{fds249049,
   Author = {Pietralla, N and Litvinenko, VN and Hartman, S and Mikhailov, FF and Pinayev, IV and Swift, G and Ahmed, MW and Kelley, JH and Nelson, SO and Prior, R and Sabourov, K and Tonchev, AP and Weller,
             HR},
   Title = {Identification of the J-pi = 1- two-phonon state of
             88Sr},
   Journal = {Physical Review C},
   Volume = {65},
   Number = {047305},
   Pages = {(3)},
   Publisher = {American Physical Society},
   Year = {2002},
   Month = {April},
   url = {http://www.aps.org/},
   Abstract = {www.aps.org},
   Key = {fds249049}
}

@article{fds248885,
   Author = {Mcdonald, JE and France, RH and Jarvis, RA and Ahmed, MW and Blackston,
             MA and Delbar, T and Gai, M and Kading, TJ and Parpottas, Y and Perdue, BA and Prior, RM and Rubin, DF and Spraker, MC and Yeomans, JD and Weissman, L and Weller, HR and Wilds, EL},
   Title = {In beam tests of implanted helium targets},
   Journal = {Journal of Instrumentation},
   Volume = {1},
   Number = {1},
   Pages = {1-11},
   Publisher = {IOP Publishing},
   Year = {2006},
   Month = {Winter},
   ISSN = {1748-0221},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000202975300002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Targets of3,4He implanted into thin aluminum foils
             (approximately 100, 200 or 600 μg/cm2) were prepared using
             intense helium beams at low energy (20, 40 or 100 keV).
             Uniformity was achieved by a beam raster across a tantalum
             collimator at the rates of 0.1 Hz (vertical) and 1 Hz
             (horizontal). Helium implantation into the very thin (80-100
             μg/cm2) aluminum foils failed to produce useful targets due
             to an under estimation of the range by SRIM code. The range
             in aluminum predicted by Northcliffe and Shilling and the
             NIST online tabulation, on the other hand, over estimate
             this range. An attempt to implant a second layer was also
             carried out, but did not significantly increase the helium
             content beyond the blistering limit. Rutherford Back
             Scattering of 1.0 and 2.5 MeV proton beams and recoil helium
             from 15.0 MeV oxygen beams were used to study the helium
             content and profile. The helium content and profile were
             very stable even after a prolonged bombardment (two days)
             with moderately intense beams of16O or4He. Helium implanted
             into thin foils is a good choice, for example, for a
             measurement of the3He(α,γ)7Be reaction and the associated
             S34astrophysical cross section factor (S-factor). © 2006
             IOP Publishing Ltd and SISSA.},
   Doi = {10.1088/1748-0221/1/09/p09003},
   Key = {fds248885}
}

@booklet{Oshea96,
   Author = {P. G. Oshea and V. N. Litvinenko and J. M. J. Madey and N.
             R. Roberson and E. C. Schreiber and K. D. Straub and K. J.
             Weeks and H. R. Weller and Y. Wu},
   Title = {Inverse Compton gamma-ray source for nuclear physics and
             related applications},
   Journal = {Nuclear Instruments \& Methods In Physics Research Section
             A-accelerators Spectrometers Detectors And Associated
             Equipment},
   Volume = {375},
   Number = {1-3},
   Pages = {530 -- 534},
   Year = {1996},
   Month = {June},
   Key = {Oshea96}
}

@article{fds248983,
   Author = {O'Shea, PG and Litvinenko, VN and Madey, JMJ and Roberson, NR and Schreiber, EC and Straub, KD and Weeks, KJ and Weller, HR and Wu,
             Y},
   Title = {Inverse Compton γ-ray source for nuclear physics and
             related applications},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {375},
   Number = {1-3},
   Pages = {530-534},
   Publisher = {Elsevier BV},
   Year = {1996},
   Month = {June},
   ISSN = {0168-9002},
   url = {http://dx.doi.org/10.1016/0168-9002(96)00052-6},
   Abstract = {The development of intense, short-wavelength FEL light
             sources has opened opportunities for new applications of
             high-energy Compton-backscattered photons. These
             applications range from medical imaging with X-rays to high
             energy physics with photon colliders. In this paper we
             discuss the practical aspects applications using polarized
             Compton backscattered γ-rays in the 5-150 MeV range from
             the Duke storage-ring-driven FEL. Such applications include:
             nuclear physics, cancer therapy, radiographic imaging,
             radiation effects testing, and positron production for
             material science studies.},
   Doi = {10.1016/0168-9002(96)00052-6},
   Key = {fds248983}
}

@booklet{Feldman91,
   Author = {Feldman, G and Kramer, LH and Weller, HR and Hayward, E and Dodge,
             WR},
   Title = {Isovector giant quadrupole resonance observed in
             Si30(p,)31P},
   Journal = {Physical Review C},
   Volume = {43},
   Number = {1},
   Pages = {223-229},
   Publisher = {American Physical Society (APS)},
   Year = {1991},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1991ET08600027&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The Si30(p,)31P reaction has been studied in the proton
             energy range Ep=2036 MeV. Angular distributions of the cross
             section and the analyzing power have been measured for -ray
             transitions to the ground state and the first excited state
             of P31 over the angular range 37.5°145°at Ep=25.5 MeV.
             Legendre polynomial fits to both observables yield nonzero
             coefficients of order k=3,4, suggesting the interference of
             E2 radiation with the dominant E1 radiation. A
             transition-matrix-element analysis of the data indicates
             that 26% of the 1 cross section at this energy arises from
             E2 radiation, whereas only 10% of the 0 cross section can be
             attributed to E2 radiation. Direct-semidirect calculations
             give a direct E2 component of 7% for both channels,
             suggesting significant excess E2 strength in the 1 channel
             at this energy. The energy dependence of the 90°analyzing
             power for 1 shows a resonance structure near Ep=34 MeV which
             can be reproduced by a direct-semidirect calculation
             including an E2 resonance at EGQR=38.6 MeV with a width of
             GQR=5.0 MeV and a strength of 50% of the isovector E2
             energy-weighted sum rule. The current results thus provide
             strong evidence for collective E2 strength roughly at the
             expected peak of the isovector giant quadrupole resonance
             built on the first excited state of P31. © 1991 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.43.223},
   Key = {Feldman91}
}

@booklet{Godwin94,
   Author = {Godwin, MA and Hayward, E and Feldman, G and Kramer, LH and Weller, HR and Dodge, WR},
   Title = {Isovector giant quadrupole resonance observed
             inY89(p→,γ)90Zr},
   Journal = {Physical Review C},
   Volume = {50},
   Number = {3},
   Pages = {1528-1534},
   Publisher = {American Physical Society (APS)},
   Year = {1994},
   Month = {September},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994PH71600035&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.50.1528},
   Key = {Godwin94}
}

@booklet{Seyler84,
   Author = {Seyler, RG and Weller, HR},
   Title = {j dependence of polarization effects in nucleon capture
             reactions},
   Journal = {Physical Review C},
   Volume = {30},
   Number = {4},
   Pages = {1146-1152},
   Publisher = {American Physical Society (APS)},
   Year = {1984},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984TM47400005&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Polarized proton capture data indicate a sensitivity to the
             j value (l±12) of the single particle final state for a
             given l value. The direct capture model is examined and a
             simple relationship between the analyzing powers for capture
             to the two j values is derived for the case of spin
             independent distortions. Calculations showing the effects of
             spin dependent distortion are also presented. The results
             are compared to the available data. © 1984 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.30.1146},
   Key = {Seyler84}
}

@article{fds16769,
   Author = {H.R. Weller},
   Title = {Low Energy Proton-Radiative-Capture Measurements and
             Astrophysical S-factors},
   Series = {2003 by World Scientific Publishing Co. Pte.
             Ltd.},
   Booktitle = {Proceedings of the Eleventh International Symposium on
             Capture Gamma-Ray Spectroscopy and RElated
             Topics},
   Publisher = {World Scientific},
   Editor = {J. Kvasil and P. Cejnar and M. Krticka},
   Year = {2003},
   Key = {fds16769}
}

@booklet{Laymon96,
   Author = {Laymon, CM and Prior, RM and Tilley, DR and Weller,
             HR},
   Title = {Low-energy polarized-proton capture on 6Li},
   Journal = {Physical Review C},
   Volume = {53},
   Number = {4},
   Pages = {1977-1980},
   Publisher = {American Physical Society (APS)},
   Year = {1996},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996UG97000073&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We have measured the thick-target yield and analyzing power
             for the 6Li(p→,γ) reaction to the ground and first
             excited state of 7Be below Ep=80 keV. High-purity-germanium
             detectors were used to acquire data at five angles from
             θ=0° to 124°. For both states the yield, integrated from
             the beam energy of 80 keV down to 0 keV, is nearly isotropic
             and the integrated analyzing power shows only small
             deviations from zero. This is taken as an indication that,
             unlike the case of the 7Li(p→,γ0) 8Be reaction, the
             p-wave-capture process is unimportant compared to the s-wave
             process. Transition-matrix-element analyses of the
             ground-state data yield p-wave contributions of a few
             percent. Under the assumption of a constant astrophysical S
             factor, consistent with direct s-wave capture, a value of S
             = (2.69±0.54) × 10-5 MeV b has been deduced.},
   Doi = {10.1103/PhysRevC.53.1977},
   Key = {Laymon96}
}

@booklet{Weller88,
   Author = {Weller, HR and Lehman, DR},
   Title = {Manifestations of the D-State in Light Nuclei},
   Journal = {Annual Review of Nuclear and Particle Science},
   Volume = {38},
   Number = {1},
   Pages = {563-608},
   Publisher = {ANNUAL REVIEWS},
   Year = {1988},
   Month = {December},
   ISSN = {0163-8998},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1988R251900015&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1146/annurev.ns.38.120188.003023},
   Key = {Weller88}
}

@article{fds248999,
   Author = {Weller, HAFTCLASCIHR},
   Title = {Measurement of Beam-Spin Asymmetries for ep->e' pi+ X in the
             Deeply Inelastic Regime},
   Journal = {Physical Review},
   Volume = {D69},
   Pages = {112004},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2004},
   url = {http://www.aps.org/},
   Key = {fds248999}
}

@article{fds249017,
   Author = {Ripani, M and Burkert, VD and Mokeev, V and Battaglieri, M and De Vita,
             R and Golovach, E and Taiuti, M and Adams, G and Anciant, E and Anghinolfi,
             M and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Beard, K and Bektasoglu,
             M and Bellis, M and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Calarco, JR and Carman,
             DS and Carnahan, B and Cazes, A and Cetina, C and Ciciani, L and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D et
             al.},
   Title = {Measurement of ep -> e ' p pi(+)pi(-) and baryon resonance
             analysis},
   Journal = {Physical Review Letters},
   Volume = {91},
   Number = {2},
   Pages = {022002},
   Publisher = {American Physical Society},
   Year = {2003},
   Month = {July},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000184086000008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevLett.91.022002},
   Key = {fds249017}
}

@article{fds249022,
   Author = {Yun, J and Kuhn, SE and Dodge, GE and Forest, TA and Taiuti, M and Adams,
             GS and Amaryan, MJ and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Auger, T and Avakian, H and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bertozzi, W and Bianchi, N and Biselli, AS and Boiarinov, S and Bosted, P and Bouchigny,
             S and Bradford, R and Branford, D and Brooks, WK and Bueltmann, S and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Ciciani, L and Cole, PL and Coleman, A and Connelly, J and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, J and de Sanctis, E and de Vita, R and Degtyarenko, PV and Demirchyan, RA and Denizli, H and Dennis, LC and Dharmawardane, KV and Djalali, C and Domingo, J and Doughty, D and Dragovitsch, P and Dugger,
             M and Dytman, S and Eckhause, M and Efremenko, YV and Egiyan, H and Egiyan,
             KS and Elouadrhiri, L and Empl, A and Farhi, L and Fatemi, R and Feuerbach,
             RJ and Ficenec, J and Fissum, K and Freyberger, A and Frolov, V and Funsten, H and Gaff, SJ and Gai, M and Gavalian, G and Gavrilov, VB and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Golovatch, E and Gordon, CIO and Griffioen, KA and Guidal, M and Guillo,
             M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hancock, D and Hardie,
             J and Heddle, D and Heimberg, P and Hersman, FW},
   Title = {Measurement of inclusive spin structure functions of the
             deuteron},
   Journal = {Physical Review C},
   Volume = {67},
   Number = {5},
   Pages = {552041-5520413},
   Publisher = {American Physical Society (APS)},
   Year = {2003},
   Month = {May},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000183382500056&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We report the results of a new measurement of spin structure
             functions of the deuteron in the region of moderate momentum
             transfer [Q 2 = 0.27-1.3 (GeV/c) 2 ] and final hadronic
             state mass in the nucleon resonance region (W = 1.08-2.0
             GeV). We scattered a 2.5 GeV polarized continuous electron
             beam at Jefferson Lab off a dynamically polarized cryogenic
             solid state target ( 15 ND 3 ) and detected the scattered
             electrons with the CEBAF large acceptance spectrometer. From
             our data, we extract the longitudinal double spin asymmetry
             A ∥ and the spin structure function g 1d . Our data are
             generally in reasonable agreement with existing data from
             SLAC where they overlap, and they represent a substantial
             improvement in statistical precision. We compare our results
             with expectations for resonance asymmetries and extrapolated
             deep inelastic scaling results. Finally, we evaluate the
             first moment of the structure function g 1d and study its
             approach to both the deep inelastic limit at large Q 2 and
             to the Gerasimov-Drell-Hearn sum rule at the real photon
             limit (Q 2 →0). We find that the first moment varies
             rapidly in the Q 2 range of our experiment and crosses zero
             at Q 2 between 0.5 and 0.8 (GeV/c) 2 , indicating the
             importance of the Δ resonance at these momentum
             transfers.},
   Doi = {10.1103/physrevc.67.055204},
   Key = {fds249022}
}

@article{fds249005,
   Author = {Weller, KJFTCLASCIHR},
   Title = {Measurement of Polarized Structure Function sigma(LT') for
             p(e,e'p)pi^0 from Single pi^0 Electroproduction in the Delta
             Resonance Region},
   Journal = {Physical Review},
   Volume = {C68},
   Pages = {032201},
   Publisher = {Amercian Physical Society},
   Year = {2004},
   url = {http://www.aps.org/},
   Key = {fds249005}
}

@booklet{Moltz97,
   Author = {Moltz, DM and Powell, JD and Rice, A and Rowe, MW and Cerny, J and Hansper,
             V and Wulf, E and Weller, HR and Champagne, AE and Hofstee,
             M},
   Title = {Measurement of the (7)BE(p,gamma) cross section at low
             energies.},
   Journal = {Abstracts of Papers of the American Chemical
             Society},
   Volume = {213},
   Pages = {43-NUCL},
   Year = {1997},
   Month = {April},
   ISSN = {0065-7727},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1997WP18701385&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Moltz97}
}

@booklet{August87,
   Author = {August, RA and Weller, HR and Tilley, DR},
   Title = {Measurement of the C12(n,0)13C cross section in the giant
             dipole resonance region},
   Journal = {Physical Review C},
   Volume = {35},
   Number = {2},
   Pages = {393-395},
   Publisher = {American Physical Society (APS)},
   Year = {1987},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1987G037800002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The C12(n,0) 13C excitation function at 90°has been
             measured for neutron energies from 6.5 to 18.5 MeV. Whereas
             previous measurements disagreed at the lower energies with a
             direct-semidirect capture calculation based on C12(p,0) 13N
             data, the present results, especially when the uncertainty
             in absolute cross section is considered, indicate reasonable
             qualitative agreement with the calculation. © 1987 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.35.393},
   Key = {August87}
}

@article{fds249010,
   Author = {Joo, K and Smith, LC and Burkert, VD and Minehart, R and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis,
             M and Benmouna, N and Bianchi, N and Biselli, AS and Boiarinov, S and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks,
             WK and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Ciciani, L and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and DeSanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge,
             GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak, OP and Eckhause, M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Feuerbach,
             RJ and Ficenec, J and Forest, TA and Funsten, H and Gaff, SJ and Gavalian,
             G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyujyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle,
             D and Heimberg, P and Hersman, FW and Hicks, K and Hicks, RS and Holtrop,
             M and Hu, J and Hyde-Wright, CE and Ilieva, Y and Ito, MM and Jenkins, D and Kelley, JH and Khandaker, M and Kim, KY and Kim, K and Kim, W and Klein,
             A},
   Title = {Measurement of the polarized structure function σ
             LT′ for p(e  ,e′p) π
             0 in the Δ (1232) resonance region},
   Journal = {Physical Review C},
   Volume = {68},
   Number = {3},
   Pages = {322011-322015},
   Publisher = {American Physical Society},
   Year = {2003},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000186510900011&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The polarized longitudinal-transverse structure function σ
             LT′ has been measured in the Δ(1232) resonance region at
             Q 2 = 0.40 and 0.65 GeV 2 . Data for the p(e → ,e′p) π
             0 reaction were taken at Jefferson Lab with the CEBAF large
             acceptance spectrometer (CLAS) using longitudinally
             polarized electrons at an energy of 1.515 GeV. For the first
             time a complete angular distribution was measured,
             permitting the separation of different nonresonant
             amplitudes using a partial wave analysis. Comparison with
             previous beam asymmetry measurements at MAMI indicate a
             deviation from the predicted Q 2 dependence of σ LT′
             using recent phenomenological models.},
   Doi = {10.1103/PhysRevC.68.0322XX},
   Key = {fds249010}
}

@article{fds248896,
   Author = {Joo, K and Smith, LC and Aznauryan, IG and Burkert, VD and Egiyan, H and Minehart, R and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Auger,
             T and Avakian, H and Bagdasaryan, H and Baillie, N and Ball, JP and Baltzell, NA and Barrow, S and Batourine, V and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna,
             N and Berman, BL and Bianchi, N and Biselli, AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Bueltmann, S and Butuceanu, C and Calarco, JR and Careccia, SL and Carman, DS and Carnahan, B and Cetina,
             C and Chen, S and Cole, PL and Coleman, A and Coltharp, P and Cords, D and Corvisiero, P and Crabb, D and Cummings, JP and de Sanctis, E and DeVita, R and Degtyarenko, PV and Dennis, L and Deur, A and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Donnelly, J and Doughty, D and Dragovitsch, P and Dugger, M and Dytman,
             S and Dzyubak, OP and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Farhi, L and Fatemi, R and Fedotov, G and Feldman, G and Feuerbach, RJ and Forest, TA and Frolov, V and Funsten, H and Gaff, SJ and Garçon, M and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Girard, P and Girod, FX and Goetz, JT and Gothe, RW and Griffioen,
             KA},
   Title = {Measurement of the polarized structure function σlT' for
             pion electroproduction in the Roper-resonance
             region},
   Journal = {Physical Review C},
   Volume = {72},
   Number = {5},
   Pages = {058202},
   Publisher = {American Physical Society (APS)},
   Year = {2005},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000233607500059&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The polarized longitudinal-transverse structure function
             σLT' measures the interference between real and imaginary
             amplitudes in pion electroproduction and can be used to
             probe the coupling between resonant and nonresonant
             processes. We report new measurements of σLT' in the
             N(1440)12+ (Roper) resonance region at Q2=0.40 and 0.65GeV2
             for both the π0p and π+n channels. The experiment was
             performed at Jefferson Lab with the CEBAF Large Acceptance
             Spectrometer (CLAS) using longitudinally polarized electrons
             at a beam energy of 1.515 GeV. Complete angular
             distributions were obtained and are compared to recent
             phenomenological models. The σLT'(π+n) channel shows a
             large sensitivity to the Roper-resonance multipoles M1- and
             S1- and provides new constraints on models of resonance
             formation. © 2005 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.72.058202},
   Key = {fds248896}
}

@booklet{Sarty93,
   Author = {Sarty, AJ and Doss, KGR and Feldman, G and Hallin, EL and Pywell, RE and Retzlaff, GA and Skopik, DM and Weller, HR and Dodge, WR and Lightbody,
             JW and Oconnell, JS and Chang, CC},
   Title = {Measurement of the reaction he-3(gamma,pp)n and its relation
             to 3-body forces},
   Journal = {Physical Review C},
   Volume = {47},
   Number = {2},
   Pages = {459-467},
   Year = {1993},
   Month = {February},
   Key = {Sarty93}
}

@article{fds249004,
   Author = {Weller, RFFTCLASCIHR},
   Title = {Measurement of the Spin Structure Functions in the Resonance
             Region for Q^2 from 0.15 to 1.6 GeV^2},
   Journal = {Physical Review Letters},
   Volume = {91},
   Pages = {222002},
   Publisher = {American Physical Society},
   Year = {2004},
   url = {http://www.aps.org/},
   Key = {fds249004}
}

@article{fds248876,
   Author = {Ahmed, MW and Blackston, MA and Perdue, BA and Tornow, W and Weller, HR and Norum, B and Sawatzky, B and Prior, RM and Spraker,
             MC},
   Title = {Near-threshold deuteron photodisintegration: An indirect
             determination of the Gerasimov-Drell-Hearn sum rule and
             forward spin polarizability (γ0) for the deuteron at low
             energies},
   Journal = {Physical Review C},
   Volume = {77},
   Number = {4},
   Pages = {044005},
   Publisher = {American Physical Society (APS)},
   Year = {2008},
   Month = {April},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000255457700016&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {It is shown that a measurement of the analyzing power
             obtained with linearly polarized γ-rays and an unpolarized
             target can provide an indirect determination of two physical
             quantities. These are the Gerasimov-Drell-Hearn (GDH) sum
             rule integrand for the deuteron and the sum rule integrand
             for the forward spin polarizability (γ0) near
             photodisintegration threshold. An analysis of data for the
             d(γ→,n)p reaction and other experiments is presented. A
             fit to the world data analyzed in this manner gives a GDH
             integral value of -603±43μb between the
             photodisintegration threshold and 6 MeV. This result is the
             first confirmation of the large contribution of the 1S0(M1)
             transition predicted for the deuteron near
             photodisintegration threshold. In addition, a sum rule value
             of 3.75±0.18 fm4 for γ0 is obtained between
             photodisintegration threshold and 6 MeV. This is a first
             indirect confirmation of the leading-order effective field
             theory prediction for the forward spin-polarizability of the
             deuteron. © 2008 The American Physical Society.},
   Doi = {10.1103/PhysRevC.77.044005},
   Key = {fds248876}
}

@booklet{King82,
   Author = {King, SE and Potokar, M and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Neutron capture in the giant resonance region of
             209Pb},
   Journal = {Nuclear Physics A},
   Volume = {384},
   Number = {1-2},
   Pages = {129-142},
   Publisher = {Elsevier BV},
   Year = {1982},
   Month = {January},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982PB48700010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The giant dipole resonance region of 209Pb has been studied
             via the reaction 208Pb(n, γ) for transitions leading to the
             ground and first excited states of 209Pb. Measured angular
             distributions were used to extract a2 coefficients at 8
             energies and a1 coefficients at 4 energies between 10 and 13
             MeV. The results are compared to direct-semidirect model and
             pure resonance model calculations using both real and
             complex form factors. Absolute cross sections at 90° were
             measured in 200 keV steps from En(Ex) = 7.0(10.9) MeV to
             13.0(16.9) MeV and are compared to previous data and to DSD
             and PRM calculations. The transitions to the ground and
             first excited states exhaust 0.39 % and 0.13 % of the
             classical dipole sum, respectively, between the excitation
             energies of 10.9 and 16.9 MeV. © 1982.},
   Doi = {10.1016/0375-9474(82)90309-8},
   Key = {King82}
}

@booklet{Wender82,
   Author = {Wender, SA and Weller, HR and Roberson, NR and Tilley, DR and Seyler,
             RG},
   Title = {Neutron capture in the giant resonance region of
             N15},
   Journal = {Physical Review C},
   Volume = {25},
   Number = {1},
   Pages = {89-96},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982MY35900010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The N14(n,0)N15 reaction has been studied over a neutron
             energy range of 5.6 MeV to 13 MeV. Data include a 90°
             excitation function measured in 200 keV steps, and seven
             angular distributions. The angular distribution data show
             good agreement with the results of a phenomenological direct
             semidirect model calculation. No non-E1 radiation is
             required to account for these data. The cross section as a
             function of energy is similar to the N14(p,0)O15 reaction
             and different from the C14(p,0)N15 reaction. These
             differences can be understood in terms of the different
             isospin states allowed in each reaction. NUCLEAR REACTIONS
             N14(n,0)N15, measured (E,) from En=5.6-13.0 MeV, DSD model
             calculations, results compared to C14(p,0)N15 and
             N14(p,0)015. © 1982 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.25.89},
   Key = {Wender82}
}

@article{fds249027,
   Author = {Wulf, EA and Canon, RS and Gaff, SJ and Kelley, JH and Prior, RM and Schreiber, EC and Spraker, M and Tilley, DR and Weller, HR and Viviani,
             M and Kievsky, A and Rosati, S and Schiavilla, R},
   Title = {New photodisintegration threshold observable in
             3He},
   Journal = {Physical Review C},
   Volume = {61},
   Number = {2},
   Pages = {216011-216014},
   Year = {2000},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000085298800006&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of the cross section, vector and tensor
             analyzing powers, and linear gamma-ray polarization in the
             radiative capture reactions D(p,γ)3He and p(d, γ)3He at
             c.m. energies in the range 0-53 keV allow the determination
             of the reduced matrix elements (RMEs) relevant for these
             transitions. From these RMEs the value of the integral which
             determines the Gerasimov-Drell-Hearn sum rule for 3He is
             obtained in the threshold region, corresponding to two-body
             breakup, and compared with the results of an ab initio
             microscopic three-body model calculation. The theoretical
             predictions for the value of this integral based on a
             "nucleons-only" assumption are an order of magnitude smaller
             than experiment. The discrepancy is reduced to about a
             factor of 2 when two-body currents are taken into account.
             This factor of 2 is due to an almost exact cancellation
             between the dominant E1 RMEs in the theoretical calculation.
             The excess E1 strength observed experimentally could provide
             useful insights into the nuclear interaction at low
             energies.},
   Key = {fds249027}
}

@booklet{Tornow98,
   Author = {Tornow, W and DeBraeckeleer, L and Howell, CR and Roberson, NR and Walter, RL and Weller, HR},
   Title = {Nuclear research at Duke [5]},
   Journal = {Science (New York, N.Y.)},
   Volume = {279},
   Number = {5350},
   Pages = {462-463},
   Year = {1998},
   Month = {January},
   Key = {Tornow98}
}

@article{fds249000,
   Author = {Kubarovsky, V and Guo, L and Weygand, DP and Stoler, P and Battaglieri,
             M and DeVita, R and Adams, G and Li, J and Nozar, M and Salgado, C and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov, S and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks,
             WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Chen, S and Ciciani, L and Cole, PL and Connelly, J and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and De Sanctis and E and Degtyarenko, PV and Denizli, H and Dennis, L and Dharmawardane, KV and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak,
             OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio,
             P and Farhi, L and Fatemi, R and Feuerbach, RJ and Ficenec, J and Forest,
             TA and Frolov, V and Funsten, H and Gaff, SJ and Garçon, M and Gavalian,
             G and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gothe, R and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Gyurjyan,
             V and Hadjidakis, C and Hakobyan, RS and Hancock, D and Hardie, J and Heddle, D and Heimberg, P and Hersman, FW and Hicks, K and Holtrop, M and Hu, J and Ilieva, Y and Ito, MM and Jenkins, D and Joo, K and Juengst, HG and Kelley, JH and Khandaker, M and Kim, KY and Kim, K and Kim, W and Klein,
             FJ and Klimenko, AV and Klusman, M and Kossov, M and Kramer, LH and Kuhn,
             SE and Kuhn, J and Lachniet, J and Laget, JM and Langheinrich, J and Lawrence, D and Longhi, A and Lukashin, K and Major, RW and Manak, JJ and Marchand, C and McAleer, S and McNabb, JWC and Mecking, BA and Mehrabyan, S and Melone, JJ and Mestayer, MD and Meyer, CA and Mikhailov, K and Minehart, R and Mirazita, M and Miskimen, R and Mokeev,
             V and Morand, L and Morrow, SA and Mozer, MU and Muccifora, V and Mueller,
             J and Mutchler, GS and Napolitano, J and Nasseripour, R and Nelson, SO and Niccolai, S and Niculescu, G and Niculescu, I and Niczyporuk, BB and Niyazov, RA and O'Brien, JT and O'Rielly, GV and Opper, AK and Osipenko,
             M and Park, K and Pasyuk, E and Peterson, G and Philips, SA and Pivnyuk, N and Pocanic, D and Pogorelko, O and Polli, E and Pozdniakov, S and Preedom,
             BM and Price, JW and Prok, Y and Protopopescu, D and Qin, LM and Raue, BA and Riccardi, G and Ripani, M and Ritchie, BG and Ronchetti, F and Rossi, P and Rowntree, D and Rubin, PD and Sabatié, F and Sabourov, K and Santoro,
             JP and Sapunenko, V and Sargsyan, M and Schumacher, RA and Serov, VS and Shafi, A and Sharabian, YG and Shaw, J and Simionatto, S and Skabelin,
             AV and Smith, ES and Smith, T and Smith, LC and Sober, DI and Spraker, M and Stavinsky, A and Stepanyan, S and Strakovsky, II and Strauch, S and Taiuti, M and Taylor, S and Tedeschi, DJ and Thoma, U and Thompson, R and Todor, L and Tur, C and Ungaro, M and Vineyard, MF and Vlassov, AV and Wang, K and Weinstein, LB and Weisberg, A and Whisnant, CS and Wolin, E and Wood, MH and Yegneswaran, A and Yun, J and CLAS Collaboration},
   Title = {Observation of an exotic baryon with S=+1 in photoproduction
             from the proton.},
   Journal = {Physical Review Letters},
   Volume = {92},
   Number = {3},
   Pages = {032001},
   Publisher = {The American Physical Society},
   Year = {2004},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000188392800014&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The reaction gamma p-->pi(+)K(-)K(+)n was studied at
             Jefferson Laboratory using a tagged photon beam with an
             energy range of 3-5.47 GeV. A narrow baryon state with
             strangeness S=+1 and mass M=1555+/-10 MeV/c(2) was observed
             in the nK(+) invariant mass spectrum. The peak's width is
             consistent with the CLAS resolution (FWHM=26 MeV/c(2)), and
             its statistical significance is (7.8+/-1.0)sigma. A baryon
             with positive strangeness has exotic structure and cannot be
             described in the framework of the naive constituent quark
             model. The mass of the observed state is consistent with the
             mass predicted by the chiral soliton model for the Theta(+)
             baryon. In addition, the pK(+) invariant mass distribution
             was analyzed in the reaction gamma p-->K(-)K(+)p with high
             statistics in search of doubly charged exotic baryon states.
             No resonance structures were found in this
             spectrum.},
   Doi = {10.1103/physrevlett.92.032001},
   Key = {fds249000}
}

@article{fds249012,
   Author = {Stepanyan, S and Hicks, K and Carman, DS and Pasyuk, E and Schumacher,
             RA and Smith, ES and Tedeschi, DJ and Todor, L and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, SP and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Berman,
             BL and Bianchi, N and Biselli, AS and Boiarinov, S and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert,
             VD and Butuceanu, C and Calarco, JR and Carnahan, B and Chen, S and Ciciani, L and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and De Sanctis and E and Degtyarenko, PV and Denizli, H and Dennis, L and De Vita and R and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak,
             OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio,
             P and Fatemi, R and Feuerbach, RJ and Ficenec, J and Forest, TA and Funsten, H and Garçon, M and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Gordon, CIO and Gothe, R and Griffioen, K and Guidal,
             M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan,
             RS and Hardie, J and Heddle, D and Heimberg, P and Hersman, FW and Hicks,
             RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ito, MM and Jenkins, D and Joo, K and Juengst, HG and Kellie, JD and Khandaker, M and Kim, KY and Kim,
             K and Kim, W and Klein, A and Klein, FJ and Klimenko, AV and Klusman, M and Kossov, M and Kramer, LH and Kuang, Y and Kubarovsky, V and Kuhn, SE and Kuhn, J and Lachniet, J and Lawrence, D and Li, J and Lima, A and Livingston, K and Lukashin, K and Manak, JJ and McAleer, S and McNabb,
             JWC and Mecking, BA and Mehrabyan, S and Melone, JJ and Mestayer, MD and Meyer, CA and Mikhailov, K and Minehart, R and Mirazita, M and Miskimen,
             R and Mokeev, V and Morand, L and Morrow, S and Muccifora, V and Mueller,
             J and Murphy, LY and Mutchler, GS and Napolitano, J and Nasseripour, R and Niccolai, S and Niculescu, G and Niculescu, I and Niczyporuk, BB and Niyazov, RA and Nozar, M and O'Brien, J and O'Rielly, GV and Opper, AK and Osipenko, M and Park, K and Peterson, G and Philips, SA and Pivnyuk, N and Pocanic, D and Pogorelko, O and Polli, E and Pozdniakov, S and Preedom,
             BM and Price, JW and Prok, Y and Protopopescu, D and Qin, LM and Raue, BA and Riccardi, G and Ricco, G and Ripani, M and Ritchie, BG and Ronchetti, F and Rossi, P and Rowntree, D and Rubin, P and Sabatié, F and Salgado, C and Santoro, J and Sapunenko, V and Serov, VS and Sharabian, YG and Shaw, J and Simionatto, S and Skabelin, AV and Smith, LC and Sober, DI and Strakovsky, II and Stavinsky, A and Stoler, P and Suleiman, R and Taiuti, M and Taylor, S and Thoma, U and Thompson, R and Tur, C and Ungaro,
             M and Vineyard, MF and Vlassov, AV and Wang, K and Weinstein, LB and Weller, H and Weygand, DP and Whisnant, CS and Wolin, E and Wood, MH and Yegneswaran, A and Yun, J and CLAS Collaboration},
   Title = {Observation of an exotic S = +1 baryon in exclusive
             photoproduction from the deuteron.},
   Journal = {Physical Review Letters},
   Volume = {91},
   Number = {25},
   Pages = {252001},
   Publisher = {American Physical Society},
   Year = {2003},
   Month = {December},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000187430900010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {In an exclusive measurement of the reaction
             gammad-->K(+)K(-)pn, a narrow peak that can be attributed to
             an exotic baryon with strangeness S=+1 is seen in the K(+)n
             invariant mass spectrum. The peak is at 1.542+/-0.005
             GeV/c(2) with a measured width of 0.021 GeV/c(2) FWHM, which
             is largely determined by experimental mass resolution. The
             statistical significance of the peak is (5.2+/-0.6)sigma.
             The mass and width of the observed peak are consistent with
             recent reports of a narrow S=+1 baryon by other experimental
             groups.},
   Doi = {10.1103/physrevlett.91.252001},
   Key = {fds249012}
}

@article{fds29586,
   Author = {S. Stepanayan for the CLAS Collaboration (including H.R.
             Weller)},
   Title = {Observation of an Exotic S=+1 Baryon in Exclusive
             Photoproduction from the Deuteron},
   Journal = {Physical Review Letters},
   Volume = {91},
   Pages = {252001},
   Publisher = {American Physical Society},
   Year = {2004},
   url = {http://www.aps.org},
   Key = {fds29586}
}

@article{fds29366,
   Author = {K. Sh. Egiyan for the CLAS Collaboraton (including J. H.
             Kelley and S.O. Nelson and K. Sabourov and M. Spraker and H.R.
             Weller)},
   Title = {Observation of Nuclear Scaling in the A(e,e') Reaction at
             x_B > 1},
   Journal = {Physical Review},
   Volume = {C68},
   Pages = {014313},
   Publisher = {American Physical Society},
   Year = {2004},
   url = {http://aps.org},
   Key = {fds29366}
}

@booklet{Kramer93,
   Author = {KRAMER, LH and CHASTELER, RM and HAYWARD, E and PRIOR, RM and TILLEY,
             DR and WELLER, HR},
   Title = {OBSERVATION OF P-WAVE CAPTURE STRENGTH IN THE
             H-2((D)OVER-RIGHT-ARROW, GAMMA)HE-4 REACTION AT E(D)=80-0
             KEV},
   Journal = {Physics Letters B},
   Volume = {304},
   Number = {3-4},
   Pages = {208-213},
   Year = {1993},
   Month = {April},
   ISSN = {0370-2693},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993KZ79100004&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1016/0370-2693(93)90284-O},
   Key = {Kramer93}
}

@booklet{Weller94b,
   Author = {WELLER, HR and CHASTELER, RM and TILLEY, DR and PRIOR,
             RM},
   Title = {OBSERVATION OF SUBSTANTIAL P-WAVE CAPTURE STRENGTH IN THE
             LI7((P)-],GAMMA)BE-8 REACTION AT E(P)(LAB)=80 KEV AND
             IMPLICATIONS ON ASTROPHYSICAL S-FACTORS},
   Journal = {Abstracts of Papers of the American Chemical
             Society},
   Volume = {208},
   Pages = {62-NUCL},
   Year = {1994},
   Month = {August},
   ISSN = {0065-7727},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994PA26900061&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Weller94b}
}

@booklet{Chasteler94,
   Author = {Chasteler, RM and Weller, HR and Tilley, DR and Prior,
             RM},
   Title = {Observation of substantial p-wave capture strength in the
             Li7(p,)8Be reaction for Ep=80-0 keV and implications for
             astrophysical S factors},
   Journal = {Physical Review Letters},
   Volume = {72},
   Number = {25},
   Pages = {3949-3952},
   Publisher = {American Physical Society (APS)},
   Year = {1994},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994NT20500008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The Li7(p,)8Be reaction has been studied using polarized
             protons having an incident energy in the range Ep(lab)=80-0
             keV. The measured angular distributions of the cross section
             ()A0 and analyzing power Ay() were interpreted using a model
             independent transition-matrix element analysis. The large
             (40%) analyzing power at 90° indicates the presence of an
             appreciable p-wave capture strength at these energies. The
             direct-capture model is used to show that this could reduce
             the astrophysical S factor by as much as 40%. © 1994 The
             American Physical Society.},
   Doi = {10.1103/PhysRevLett.72.3949},
   Key = {Chasteler94}
}

@booklet{Park98,
   Author = {S. H. Park and V. N. Litvinenko and B. Burnham and Y. Wu and J. M. J. Madey and R. S. Canon and C. R. Howell and N. R.
             Roberson and E. C. Schreiber and M. Spraker and W. Tornow and H. R. Weller and I. V. Pinayev},
   Title = {OK-4/Duke monochromatic gamma-ray source: performance and
             prediction},
   Journal = {Nuclear Instruments \& Methods In Physics Research Section
             A-accelerators Spectrometers Detectors And Associated
             Equipment},
   Volume = {407},
   Number = {1-3},
   Pages = {224 -- 228},
   Year = {1998},
   Month = {April},
   Key = {Park98}
}

@article{fds248906,
   Author = {Park, SH and Litvinenko, VN and Burnham, B and Wu, Y and Madey, JMJ and Canon, RS and Howell, CR and Roberson, NR and Schreiber, EC and Spraker,
             M and Tornow, W and Weller, HR and Pinayev, IV},
   Title = {OK-4/Duke monochromatic γ-ray source: Performance and
             prediction},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {407},
   Number = {1-3},
   Pages = {224-228},
   Publisher = {Elsevier BV},
   Year = {1998},
   Month = {April},
   ISSN = {0168-9002},
   url = {http://dx.doi.org/10.1016/S0168-9002(97)01400-9},
   Abstract = {A beam of nearly monochromatic γ-rays was produced via
             intracavity Compton backscattering in the OK-4/Duke storage
             ring FEL. The OK-4 FEL operated in the near-UV range
             (345-413 nm) with electron energies of 260-550 MeV. The
             energy of the produced γ-rays varied from 3 to 16 MeV. In
             the near future we plan to increase the energy of the
             γ-rays to 50 MeV by increasing the electron energy and
             reducing FEL wavelength. Results from direct measurements of
             the γ-ray flux and energy resolution (using a 3 mm diameter
             lead collimator) (Litvinenko et al., Phys. Rev. Lett. 78
             (1997) 4569) are very close to our theoretical predictions.
             The energy resolution of the γ-rays was ∼ 1%. In this
             paper we present a comparison of our measurements with
             theoretical predictions and our plans for future
             improvements. We discuss upgrades of our system to attain an
             energy resolution down to 0.1% and to increase the flux. A
             brief description of the experimental program utilizing the
             OK-4/Duke monochromatic γ-ray source is presented. © 1998
             Elsevier Science B.V. All rights reserved.},
   Doi = {10.1016/S0168-9002(97)01400-9},
   Key = {fds248906}
}

@article{fds248895,
   Author = {Rossi, P and Mirazita, M and Ronchetti, F and De Sanctis and E and Adams,
             G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop,
             B and Audit, G and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow,
             S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bertozzi, W and Bianchi, N and Biselli,
             AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and De Vita and R and Degtyarenko, PV and Denizli, H and Dennis, L and Deppman, A and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger,
             M and Dytman, S and Dzyubak, OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Feuerbach,
             RJ and Ficenec, J and Forest, TA and Funsten, H and Gai, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hersman,
             FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ilieva, Y and Ito, MM and Jenkins, D and Jo, HS and Joo, K and Kellie, JD and Khandaker, M and Kim, KY and Kim, K and Kim, W and Klein, A and Klein, FJ and Klimenko, AV and Klusman, M and Kossov, M and Kramer, LH and Kuhn, J and Kuhn, SE and Lachniet, J and Laget, JM and Lawrence, D and Li, J and Lima,
             ACS and Livingston, K and Lukashin, K and Manak, JJ and Marchand, C and McAleer, S and McCarthy, J and McNabb, JWC and Mecking, BA and Mehrabyan, S and Melone, JJ and Mestayer, MD and Meyer, CA and Mikhailov, K and Miskimen, R and Mokeev, V and Morand, L and Morrow, SA and Muccifora, V and Mueller, J and Mutchler, GS and Napolitano, J and Nasseripour, R and Niccolai, S and Niculescu, G and Niculescu, I and Niczyporuk, BB and Niyazov, RA and Nozar, M and O'Brien, JT and O'Rielly, GV and Osipenko, M and Ostrovidov, A and Park, K and Pasyuk,
             E and Peterson, G and Philips, SA and Pivnyuk, N and Pocanic, D and Pogorelko, O and Polli, E and Pozdniakov, S and Preedom, BM and Price,
             JW and Prok, Y and Protopopescu, D and Qin, LM and Raue, BA and Riccardi,
             G and Ricco, G and Ripani, M and Ritchie, BG and Rosner, G and Rowntree, D and Rubin, PD and Sabatié, F and Salgado, C and Santoro, JP and Sapunenko,
             V and Schumacher, RA and Serov, VS and Sharabian, YG and Shaw, J and Simionatto, S and Skabelin, AV and Smith, ES and Smith, LC and Sober,
             DI and Spraker, M and Stavinsky, A and Stepanyan, S and Stokes, B and Stoler, P and Strakovsky, II and Strauch, S and Taiuti, M and Taylor, S and Tedeschi, DJ and Thoma, U and Thompson, R and Tkabladze, A and Todor, L and Tur, C and Ungaro, M and Vineyard, MF and Vlassov, AV and Wang, K and Weinstein, LB and Weller, H and Weygand, DP and Whisnant, CS and Wolin,
             E and Wood, MH and Yegneswaran, A and Yun, J and Zhang, B and Zhou, Z and CLEO},
   Title = {Onset of asymptotic scaling in deuteron photodisintegration.},
   Journal = {Physical Review Letters},
   Volume = {94},
   Number = {1},
   Pages = {012301},
   Year = {2005},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000226308000024&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We investigate the transition from the nucleon-meson to the
             quark-gluon description of the strong interaction using the
             photon energy dependence of the d(gamma,p)n differential
             cross section for photon energies above 0.5 GeV and
             center-of-mass proton angles between 30 degrees and 150
             degrees. A possible signature for this transition is the
             onset of cross-section s(-11) scaling with the total energy
             squared, s, at some proton transverse momentum P(T). The
             results show that the scaling has been reached for proton
             transverse momentum above about 1.1 GeV/c. This may indicate
             that the quark-gluon regime is reached above this
             momentum.},
   Doi = {10.1103/physrevlett.94.012301},
   Key = {fds248895}
}

@article{fds248902,
   Author = {Savran, D and Müller, S and Zilges, A and Babilon, M and Ahmed, MW and Kelley, JH and Tonchev, A and Tornow, W and Weller, HR and Pietralla, N and Li, J and Pinayev, IV and Wu, YK},
   Title = {Parity assignments in 172,174Yb using polarized
             photons and the K quantum number in rare earth
             nuclei},
   Journal = {Physical Review C},
   Volume = {71},
   Number = {3},
   Pages = {034304},
   Publisher = {American Physical Society (APS)},
   Year = {2005},
   Month = {Winter},
   ISSN = {0556-2813},
   url = {http://hdl.handle.net/10161/11080 Duke open
             access},
   Abstract = {The 100% polarized photon beam at the high intensity γ ray
             source (HIγS) at Duke University has been used to determine
             the parity of six dipole excitations between 2.9 and 3.6 MeV
             in the deformed nuclei 172,174Yb in photon scattering
             (γ→, γ′) experiments. The measured parities are
             compared with previous assignments based on the K quantum
             number that had been assigned in nuclear resonance
             fluorescence (NRF) experiments by using the Alaga rules. A
             systematic survey of the relation between γ-decay branching
             ratios and parity quantum numbers is given for the rare
             earth nuclei. © 2005 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.71.034304},
   Key = {fds248902}
}

@article{fds249001,
   Author = {Fransen, C and Pietralla, N and Tonchev, AP and Ahmed, MW and Chen, J and Feldman, G and Kneissl, U and Li, J and Litvinenko, VN and Perdue, B and Pinayev, IV and Pitz, HH and Prior, R and Sabourov, K and Spraker, M and Tornow, W and Weller, HR and Werner, V and Wu, YK and Yates,
             SW},
   Title = {Parity assignments to strong dipole excitations
             of92Zr and 96Mo 044317},
   Journal = {Physical Review C},
   Volume = {70},
   Number = {4},
   Pages = {044317-044311},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {October},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000225043100035&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Parity quantum numbers for dipole-excited states of the
             nuclei 92Zr and 96Mo have been determined from azimuthal
             asymmetries of nuclear resonance fluorescence intensities
             induced with the linearly polarized photon beam of the HIγS
             facility at Duke University. This parity information is
             crucial for an interpretation of the investigated J= 1
             states as two-phonon excitations originating from
             inhomogeneous phonon coupling.},
   Doi = {10.1103/PhysRevC.70.044317},
   Key = {fds249001}
}

@conference{fds249047,
   Author = {Pietralla, N and Weller, HR and Litvinenko, VN and Ahmed, MW and Tonchev, AP},
   Title = {Parity measurements of nuclear dipole excitations using
             FEL-generated γ-rays at HIγS},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {483},
   Number = {1-2},
   Pages = {556-559},
   Publisher = {Elsevier BV},
   Year = {2002},
   Month = {Summer},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000176527000109&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {First Nuclear Resonance Fluorescence (NRF) experiments were
             performed at the storage ring FEL-driven High Intensity
             Gamma Source (HIγS) at the DFELL. Azimuthal NRF intensity
             ratios were measured around the polarized HIγS beam.
             Electric character was deduced for 18 dipole excitations
             in138Ba [1]. The measurements demonstrate the superior
             performance of the HIγS facility in making such
             measurements. We report here on the performance of this
             set-up. © 2002 Elsevier Science B.V. All rights
             reserved.},
   Doi = {10.1016/S0168-9002(02)00381-9},
   Key = {fds249047}
}

@article{fds249046,
   Author = {Pietralla, N and Berant, Z and Litvinenko, VN and Hartman, S and Mikhailov, FF and Pinayev, IV and Swift, G and Ahmed, MW and Kelley, JH and Nelson, SO and Prior, R and Sabourov, K and Tonchev, AP and Weller,
             HR},
   Title = {Parity measurements of nuclear levels using a
             free-electron-laser generated gamma-ray beam},
   Journal = {Physical Review Letters},
   Volume = {88},
   Number = {1},
   Pages = {012502},
   Publisher = {American Physical Society},
   Year = {2002},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000173124800017&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The quality and intensity of gamma rays at the High
             Intensity gamma-ray Source are shown to make nuclear
             resonance fluorescence studies possible at a new level of
             precision and efficiency. First experiments have been
             carried out using an intense (10(7) gamma/s) beam of 100%
             linearly polarized, nearly monoenergetic, gamma rays on the
             semimagic nucleus (138)Ba. Negative parity quantum numbers
             have been assigned to 18 dipole excitations of (138)Ba
             between 5.5 MeV and 6.5 MeV from azimuthal gamma-intensity
             asymmetries.},
   Doi = {10.1103/PhysRevLett.88.012502},
   Key = {fds249046}
}

@article{fds249019,
   Author = {Battaglieri, M and Brunoldi, M and De Vita and R and Laget, JM and Osipenko, M and Ripani, M and Taiuti, M and Adams, G and Amaryan, MJ and Anciant, E and Anghinolfi, M and Armstrong, DS and Asavapibhop, B and Asryan, G and Audit, G and Auger, T and Avakian, H and Barrow, S and Beard,
             K and Bektasoglu, M and Berman, BL and Bersani, A and Bianchi, N and Biselli, AS and Boiarinov, S and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Calarco,
             JR and Capitani, GP and Carman, DS and Carnahan, B and Cazes, A and Cetina,
             C and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and DeSanctis, E and Degtyarenko, PV and Demirchyan, R and Denizli, H and Dennis, L and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch,
             P and Dugger, M and Dytman, S and Eckhause, M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Farhi, L and Feuerbach, RJ and Ficenec, J and Forest,
             TA and Freyberger, AP and Frolov, V and Funsten, H and Gaff, SJ and Gai, M and Garcon, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti,
             KL and Golovach, E and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hancock, D and Hardie, J and Heddle,
             D and Hersman, FW and Hicks, K and Hicks, RS and Holtrop, M and Hyde-Wright, CE and Ito, MM and Joo, K and Kelley, JH and Khandaker, M and Kim, W and Klein, A and Klein, FJ and Klimenko, AV and Klusman, M and Kossov, M and Kramer, LH and Kuang, Y and Kuhn, SE and Lachniet, J and Lawrence, D and Lucas, M and Lukashin, K and Major, RW and Manak, JJ and Marchand, C and McAleer, S and McCarthy, J and McNabb, JWC and Mecking,
             BA and Mestayer, MD and Meyer, CA and Mikhailov, K and Mirazita, M and Miskimen, R and Mokeev, V and Morrow, S and Mozer, MU and Muccifora, V and Mueller, J and Mutchler, GS and Napolitano, J and Nelson, SO and Niccolai, S and Niczyporuk, BB and Niyazov, RA and Nozar, M and O'Brien,
             JT and Opper, AK and Peterson, G and Philips, SA and Pivnyuk, N and Pocanic, D and Pogorelko, O and Polli, E and Preedom, BM and Price, JW and Protopopescu, D and Qin, LM and Raue, BA and Reolon, AR and Riccardi, G and Ricco, G and Ritchie, BG and Ronchetti, F and Rossi, P and Rowntree, D and Rubin, PD and Sabourov, K and Salgado, C and Sapunenko, V and Schumacher, RA and Serov, VS and Shafi, A and Sharabian, YG and Shaw, J and Skabelin, AV and Smith, ES and Smith, T and Smith, LC and Sober, DI and Spraker, M and Stavinsky, A and Stepanyan, S and Stoler, P and Taylor,
             S and Tedeschi, DJ and Todor, L and Thoma, U and Thompson, R and Vineyard,
             MF and Vlassov, AV and Wang, K and Weinstein, LB and Weller, H and Weygand,
             DP and Whisnant, CS and Wolin, E and Wood, M and Yegneswaran, A and Yun, J and Zhang, B and Zhao, J and Zhou, Z and CLAS Collaboration},
   Title = {Photoproduction of the omega meson on the proton at large
             momentum transfer.},
   Journal = {Physical Review Letters},
   Volume = {90},
   Number = {2},
   Pages = {022002},
   Publisher = {American Physical Society},
   Year = {2003},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000180444200010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The differential cross section, dsigma/dt, for omega meson
             exclusive photoproduction on the proton above the resonance
             region (2.6<W<2.9 GeV) was measured up to a momentum
             transfer -t=5 GeV2 using the CLAS detector at Jefferson
             Laboratory. The omega channel was identified by detecting a
             proton and pi(+) in the final state and using the missing
             mass technique. While the low momentum transfer region shows
             the typical diffractive pattern expected from Pomeron and
             Reggeon exchange, at large -t the differential cross section
             has a flat behavior. This feature can be explained by
             introducing quark interchange processes in addition to the
             QCD-inspired two-gluon exchange.},
   Doi = {10.1103/physrevlett.90.022002},
   Key = {fds249019}
}

@article{fds249033,
   Author = {Anciant, E and Auger, T and Audit, G and Battaglieri, M and Laget, JM and Marchand, C and Adams, GS and Amaryan, MJ and Anghinolfi, M and Armstrong, D and Asavapibhop, B and Avakian, H and Barrow, S and Beard,
             K and Bektasoglu, M and Berman, BL and Bianchi, N and Biselli, A and Boiarinov, S and Briscoe, WJ and Brooks, WK and Burkert, VD and Calarco,
             JR and Capitani, G and Carman, DS and Carnahan, B and Cetina, C and Cole,
             PL and Coleman, A and Connelly, J and Cords, D and Corvisiero, P and Crabb,
             D and Crannell, H and Cummings, J and Degtyarneko, PV and Dennis, LC and de
             Sanctis, E and de Vita, R and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Efremenko,
             YV and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Farhi, L and Feuerbach, RJ and Ficenec, J and Forest, TA and Freyberger, A and Funsten, H and Gai, M and Garçon, M and Gilfoyle, GP and Giovanetti, K and Girard, P and Griffioen, KA and Guidal, M and Gyurjyan, V and Heddle, D and Hersman, FW and Hicks, K and Hicks, RS and Holtrop, M and Hyde-Wright,
             CE and Ito, MM and Jenkins, D and Joo, K and Khandaker, M and Kim, DH and Kim,
             W and Klein, A and Klein, FJ and Klusman, M and Kossov, M and Kramer, LH and Kuhn, SE and Lawrence, D and Longhi, A and Loukachine, K and Magahiz, R and Major, RW and Manak, JJ and Matthews, SK and McAleer, S and McCarthy, J and McCormick, K and McNabb, JWC and Mecking, BA},
   Title = {Photoproduction of φ (1020) mesons on the proton at large
             momentum transfer},
   Journal = {Physical Review Letters},
   Volume = {85},
   Number = {22},
   Pages = {4682-4686},
   Publisher = {American Physical Society (APS)},
   Year = {2000},
   Month = {November},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000165556600010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Elastic photoproduction of φ mesons from the proton was
             measured for the first time up to -t = 4 GeV 2 . Below -t
             ≈ 1 GeV 2 , the data cannot distinguish between the
             Pomeron exchange and the two-gluon exchange models. Above -t
             ≈ 1.8 GeV 2 , the data ruled out the diffractive Pomeron
             and strongly favored its two-gluon realization.},
   Doi = {10.1103/PhysRevLett.85.4682},
   Key = {fds249033}
}

@booklet{King84a,
   Author = {King, SE and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Polarized and unpolarized proton capture on
             deuterium},
   Journal = {Physical Review C},
   Volume = {30},
   Number = {1},
   Pages = {21-25},
   Publisher = {American Physical Society (APS)},
   Year = {1984},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984SZ38100003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Angular distributions of cross section were measured for the
             H2(p,)He3 reaction at Ex=9.83, 10.83, 12.78, 15.47, and
             16.12 MeV and of analyzing power at Ex=10.83 and 16.12 MeV.
             The data were fitted by expansions of Legendre and, where
             appropriate, associated Legendre polynomials. The
             coefficients of those fits are reported. The data at
             Ex=10.83 and 16.12 MeV were also analyzed under simplifying
             assumptions to extract the s=12(E 1), s=12(E 2), and s=32(E
             1) transition matrix elements, where s represents the
             incident channel spin. The results indicate that the data
             are consistent with a 2(3)% E2 and a 3(5)% s=32(E 1)
             admixture at Ex=10.83(16.12) MeV. These results are
             discussed in light of other recent experiments and
             calculations. © 1984 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.30.21},
   Key = {King84a}
}

@booklet{Balbes92,
   Author = {Balbes, MJ and Feldman, G and Weller, HR and Tilley,
             DR},
   Title = {Polarized d+3He capture into the 3/2spl fusion resonance of
             Li5 and the role of the tensor force},
   Journal = {Physical Review C},
   Volume = {45},
   Number = {2},
   Pages = {R487-R491},
   Publisher = {American Physical Society (APS)},
   Year = {1992},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1992HD25700001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The absolute differential cross section and analyzing powers
             Ay(), Ayy(), and T20() of the He3(d,)5Li reaction have been
             measured with an 800 keV deuteron beam which was stopped in
             a gaseous He3 target. A transition matrix element analysis
             of the data leads to two solutions, both of which indicate
             the reaction proceeds predominantly through s-wave (E1)
             capture, with small admixtures of M1 radiation. One solution
             has predominantly 4s3/2(E1) capture strength, the other has
             nearly equal capture strengths from the 2s1/2(E1) and
             4s3/2(E1) transition matrix elements. Resonating group model
             (RGM) calculations have been performed which favor the
             solution with dominant 4s3/2(E1) capture strength. In the
             RGM picture, the fusion resonance in the capture cross
             section is a consequence of the tensor force, which couples
             the [d+3He]J=3/2S=3/2 scattering channel to the
             [p+4He]J=3/2S=1/2 scattering channel, enabling the reaction
             to proceed via theS=0 (E1) transition to the ground state.
             The finite tensor analyzing powers of the present experiment
             serve to support this interpretation of the role of the
             tensor force. © 1992 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.45.R487},
   Key = {Balbes92}
}

@booklet{Balbes94,
   Author = {Balbes, MJ and Riley, JC and Feldman, G and Weller, HR and Tilley,
             DR},
   Title = {Polarized deuteron capture by He3 and H3 at and above the
             fusion resonance region},
   Journal = {Physical Review C},
   Volume = {49},
   Number = {2},
   Pages = {912-925},
   Publisher = {American Physical Society (APS)},
   Year = {1994},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994MZ10300046&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The absolute differential cross sections and vector and
             tensor analyzing powers for the He3(d,)5Li and H3(d,)5He
             reactions have been measured both in the j=3/2+ fusion
             resonance region [Ed(lab)=0.45 MeV and Ed(lab) = 0.1 MeV,
             respectively] and at Ed(lab)=8.6 MeV for several angles. In
             the fusion resonance region, a transition matrix element
             (TME) analysis of the observables leads to multiple
             solutions for both reactions, all of which indicate that the
             reactions proceed predominantly through s-wave (E1) capture,
             with small admixtures of M1 or E2 radiation. One solution
             for each reaction is dominated by a large (90%) 4s3/2(E1)
             capture strength. Coupled-channels resonating group model
             (CCRGM) calculations have been performed which favor these
             solutions. In the CCRGM picture, the j=3/2+ fusion resonance
             in the capture cross section is a consequence of the tensor
             force, which couples the s=3/2, d+3He (or d+3H) channel to
             the s=1/2, p+4He (or n+4He) channel, enabling the reactions
             to proceed via the spin-independent (E1) transition to the
             ground state. At Ed(lab)=8.6 MeV, a TME analysis of the
             He3(d,)5Li reaction yields a single solution which has >80%
             s-wave (E1) capture strength, whereas two TME solutions
             exist for the H3(d,)5He reaction with 45% and 65% s-wave
             (E1) capture strength. These data are also compared to the
             results of the CCRGM calculations. © 1994 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.49.912},
   Key = {Balbes94}
}

@article{fds249045,
   Author = {Weller, HR and Balbes, MJ},
   Title = {Polarized deuteron capture on 3He in the fusion
             resonance region 1},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {402},
   Number = {2-3},
   Pages = {428-432},
   Publisher = {Elsevier BV},
   Year = {1998},
   Month = {January},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000071718800048&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The absolute differential cross section, σ(θ), and the
             analyzing powers Ay(θ), Ayy(θ), and T20(θ) of the 3He(d,
             γ)5Li reaction have been measured using an 800 keV deuteron
             beam which was stopped in a gaseous 3He target. The same
             quantities, with the exception of T20(θ), were measured
             using a 600 keV incident deuteron beam which lost 300 keV in
             the target, thus integrating over the FWHM of the fusion
             resonance. A transition matrix element analysis gives two
             solutions which cannot be distinguished on the basis of this
             analysis alone. A coupled-channels resonating group model
             calculation has been performed and is used to select the
             physical solution. The results of this calculation are in
             good agreement with the data if the tensor force which is
             employed is reduced by a factor of 0.75 times its two-body
             value. If the tensor force is turned off, the calculated
             analyzing powers go to zero and the cross section is more
             than an order of magnitude too small, indicating the crucial
             role of the tensor force in this reaction.},
   Doi = {10.1016/S0168-9002(97)00885-1},
   Key = {fds249045}
}

@booklet{Weller98a,
   Author = {H. R. Weller and M. J. Balbes},
   Title = {Polarized deuteron capture on He-3 in the fusion resonance
             region},
   Journal = {Nuclear Instruments \& Methods In Physics Research Section
             A-accelerators Spectrometers Detectors And Associated
             Equipment},
   Volume = {402},
   Number = {2-3},
   Pages = {428 -- 432},
   Year = {1998},
   Month = {January},
   Key = {Weller98a}
}

@booklet{Woodworth84,
   Author = {Woodworth, JG and August, RA and Roberson, NR and Tilley, DR and Weller,
             HR and Jury, JW},
   Title = {Polarized neutron capture into C13: Evidence for a secondary
             doorway state effect},
   Journal = {Physical Review C},
   Volume = {29},
   Number = {4},
   Pages = {1186-1193},
   Publisher = {American Physical Society (APS)},
   Year = {1984},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984SL58600005&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Angular distributions for the C12(n,0)C13 reaction have been
             measured with neutrons corresponding to excitation energies
             of 16.0, 19.2, 20.1, 20.8, and 21.8 MeV. Legendre polynomial
             coefficients have been determined to second order (a3 is
             small). Polarized neutron measurements were obtained at
             excitation energies of 16.0, 18.6, 19.2, 20.1, 21.0, 21.8,
             and 22.3 MeV. A structure seen in the coefficient of the
             Legendre polynomial P2 for the C12(p,0)N13 reaction is also
             seen in the present data. A secondary doorway state at 20.5
             MeV with an apparent width of 0.5 MeV is suggested by
             previously measured B11(d,0)C13 data. The presence of this
             state provides an explanation for the energy dependence of
             the cross section, the a2 coefficient, and the analyzing
             power coefficient b2 in the C12(n,0)C13 data. The same model
             is also able to describe the energy dependence of the cross
             section and the a2 coefficient observed in the C12(p,0)N13
             reaction in the region of 16 to 22 MeV. © 1984 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.29.1186},
   Key = {Woodworth84}
}

@booklet{Wright85,
   Author = {Wright, MC and Kitazawa, H and Roberson, NR and Weller, HR and Jensen,
             M and Tilley, DR},
   Title = {Polarized neutron capture on C13},
   Journal = {Physical Review C},
   Volume = {31},
   Number = {4},
   Pages = {1125-1132},
   Publisher = {American Physical Society (APS)},
   Year = {1985},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1985AFH5500008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 90°cross section yield curve for the C13(n,0) 14C
             reaction has been measured from En(Ex)=5.6(13.4) to
             17.0(24.0) MeV. Angular distributions of cross section and
             analyzing power were measured at seven energies spanning
             this excitation region. In addition, the fore-aft asymmetry
             and 90°analyzing power were measured as a function of
             energy from En=7.75 to 17.0 MeV. The data were compared to
             direct-semidirect model calculations which included the
             isovector dipole and isoscalar electric quadrupole
             transitions. These comparisons indicate the presence of two
             narrow M1 resonances at Ex=16.5 and 17.5 MeV and that (E2)
             is less than 2% of the total capture cross section in the
             energy region of this experiment. © 1985 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.31.1125},
   Key = {Wright85}
}

@booklet{Weller82b,
   Author = {Weller, HR and Roberson, NR and Mitev, G and Ward, L and Tilley,
             DR},
   Title = {Polarized neutron capture on He3 at En=9.0
             MeV},
   Journal = {Physical Review C},
   Volume = {25},
   Number = {4},
   Pages = {2111-2115},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982NL11300039&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A polarized neutron beam has been used to measure the
             angular distribution of the analyzing power for the
             He3(n,)He4 reaction at En (Ex)=9.0 (27.3) MeV. The angular
             distribution of the cross section, obtained with an
             unpolarized beam, is combined with these data to obtain the
             bk coefficients. These coefficients are compared to the
             results of a previous measurement performed for the
             H3(p,)He4 reaction, and to the results of a recent continuum
             shell model calculation. NUCLEAR REACTIONS He3(n,)He4,
             measured () and A() at En=9.0 MeV. Compared results to
             previous H3(p,)He4 measurements and to recent continuum
             shell model calculations. © 1982 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.25.2111},
   Key = {Weller82b}
}

@booklet{Schmid95,
   Author = {Schmid, GJ and Chasteler, RM and Laymon, CM and Weller, HR and Prior,
             RM and Tilley, DR},
   Title = {Polarized proton capture by deuterium and the H2(p,γ)He3
             astrophysical S factor},
   Journal = {Physical Review C},
   Volume = {52},
   Number = {4},
   Pages = {R1732-R1735},
   Publisher = {American Physical Society (APS)},
   Year = {1995},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995TB02000003&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The H2(p→, γ)He3 reaction has been studied in the energy
             region Ep=80-0 keV (Ec.m.=53.3-0 keV), where the quantities
             measured were σ(θ,E) and Ay(θ,E). Our result for the
             total H2(p,γ)He3 S factor at E=0 is S(0)=0.121±0.012 eV b
             (including systematic error), which is 52% lower than the
             presently accepted value. Some astrophysical aspects of this
             result are discussed. We have also extracted the E1 and M1
             S(E) components using our detailed angular distribution
             data. These data will provide sensitive tests for three-body
             calculations which include Coulomb and meson exchange
             current effects. © 1995 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.52.R1732},
   Key = {Schmid95}
}

@booklet{Turner80,
   Author = {Turner, JD and Roberson, NR and Wender, SA and Weller, HR and Tilley,
             DR},
   Title = {Polarized proton capture on C13},
   Journal = {Physical Review C},
   Volume = {21},
   Number = {2},
   Pages = {525-533},
   Publisher = {American Physical Society (APS)},
   Year = {1980},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980JE64300008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 90°yield curves for the C13(p→,γ0)N14 and
             C13(p→,γ1)N14 reactions have been measured in 200 keV
             steps for Ep=6.25 to 13.6 MeV and in 100 keV steps for
             Ep=13.6 to 17.0 MeV. In addition, 50 keV step data were
             obtained for Ep of 12.6 to 14.55 MeV. Angular distributions
             of both the cross section and the analyzing power were also
             obtained for these two reactions at twelve energies which
             span the giant dipole energy region. The cross section was
             measured at nine angles between 30°and 154°while the
             analyzing power was measured at seven angles between 42°and
             142°. These data were used to obtain the complex E1 and E2
             transition matrix elements in the case of C13(p→,γ1)N14.
             The results are compared to a direct-semidirect calculation.
             It is found that there is little justification in
             introducing E2 amplitudes other than a pure direct E2 term.
             NUCLEAR REACTIONS C13(p→,γ0), C13(p→,γ1) measured
             σ(θ) and A(θ), Ep=8.05-15.5 MeV. C13(p,γ0), C13(p,γ1)
             measured σ(90°), Ep=6.24-17.0 MeV. Deduced E1 and E2
             T-matrix amplitudes and phases. Compared to model
             calculations. © 1980 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.21.525},
   Key = {Turner80}
}

@booklet{Cameron80,
   Author = {Cameron, CP and Ledford, RD and Potokar, M and Rickel, DG and Roberson,
             NR and Weller, HR and Tilley, DR},
   Title = {Polarized proton capture on Si30},
   Journal = {Physical Review C},
   Volume = {22},
   Number = {2},
   Pages = {397-407},
   Publisher = {American Physical Society (APS)},
   Year = {1980},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980KE55500007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 90°yield curves for the Si30(p, 0)P31 and Si30(p, 1)P31
             reactions have been measured for Ep=5.0 to 28.0 MeV. Angular
             distributions of cross section and analyzing power were
             obtained at twelve energies between Ep=6.36 and 14.45 MeV.
             The cross sections were measured at nine angles between
             30°and 154°, the analyzing power at seven angles between
             42°and 142°. For the case of (p, 0) the complex T-matrix
             elements were extracted, assuming that the angular
             distributions are governed by coherent E1 and E2 processes.
             Two (E2) yield curves are obtained, one of which exhausts
             9-12% of the T=0 E2 energy weighted sum rule while the other
             exhausts 21-31%. The results are compared to
             direct-semidirect model calculations which suggest that the
             larger E2 cross sections are the physical solutions. NUCLEAR
             REACTIONS Si30(p, 0) Si30(p, 1) measured () and A(), Ep=6.4
             to 15.0 MeV. Si30(p, 0) Si30(p, 1) measured (90°), Ep=5.0
             to 28.0 MeV. Deduced E1 and E2 T-matrix amplitudes and
             phases. Compared to model calculations. © 1980 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.22.397},
   Key = {Cameron80}
}

@article{fds249042,
   Author = {Weller, HR},
   Title = {Polarized radiative capture studies of the 3-body system
             below 80 keV},
   Journal = {Nuclear Physics A},
   Volume = {631},
   Pages = {627-632},
   Publisher = {Elsevier BV},
   Year = {1998},
   Month = {March},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000073079900071&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Advances in both experimental and theoretical techniques are
             now making it possible to study three-body capture reactions
             below 80 keV in considerable detail. Measurements of the
             energy dependence of the cross section for the D(p,γ)3He
             reaction below 80 keV indicate an astrophysical S-factor
             which is 34% smaller than the "accepted" value.1
             Furthermore, our detailed measurements1 of cross section,
             vector and tensor analyzing powers (obtained using the
             p(d,γ)3He reaction), and gamma-ray polarizations as a
             function of energy and angle have been compared to the
             results of new 3-body calculations by Viviani et al.2 which
             include Coulomb, MEC and Δ-isobar effects. Dramatic effects
             of the tensor force and the associated two-body currents are
             observed in the analyzing power data for the first time. We
             have recently measured the vector analyzing power for the
             p(d,γ)3He reaction. This observable is very sensitive to
             the presence of MECs, changing from -0.13 to -0.01 at 90°,
             for example, when MEC effects are and are not included in
             the calculations, respectively. New precision measurements
             of tensor analyzing power (T20(90°)) have been used to
             extract the value of the aymptotic D-to-S state ratio for
             3He, taking advantage of the asymptotic nature of the
             capture reaction at these low energies.3 Presently, the
             discrepancies between state-of-the-art calculations and our
             data are significant, suggesting that additional physics,
             such as 3-body current effects, need to be taken into
             account.},
   Doi = {10.1016/s0375-9474(98)00080-3},
   Key = {fds249042}
}

@booklet{Weller98,
   Author = {H. R. Weller},
   Title = {Polarized radiative capture studies of the 3-body system
             below 80 keV},
   Journal = {Nuclear Physics A},
   Volume = {631},
   Pages = {627C -- 632C},
   Year = {1998},
   Month = {March},
   Key = {Weller98}
}

@booklet{Drake83,
   Author = {Drake, DM and Roberson, NR and Wender, SA and Weller,
             HR},
   Title = {Polarized triton capture on 12C},
   Journal = {Nuclear Physics A},
   Volume = {410},
   Number = {3},
   Pages = {429-440},
   Publisher = {Elsevier BV},
   Year = {1983},
   Month = {December},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1983RV31800005&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 90° cross section for the 12C(t, γ0)15N reaction was
             measured for Et from 2.3 to 6.5 MeV. Polarized and
             unpolarized angular distribution data were obtained for E1 =
             2.27, 3.24 and 5.95 MeV. The resulting a2 and b2
             coefficients are compared to the predictions of a direct
             capture (cluster) model. This model gives a reasonably good
             description of the qualitative behavior observed in the
             experiment, although it predicts an absolute cross section
             which is an order of magnitude smaller than any observed
             cross section. © 1983.},
   Doi = {10.1016/0375-9474(83)90635-8},
   Key = {Drake83}
}

@article{fds248879,
   Author = {Stave, S and al, HRWE},
   Title = {Preciese Determination of Total Absolute Gamma Ray Intensity
             at HIGS},
   Journal = {Bulletin of the APS},
   Volume = {52},
   Number = {9},
   Pages = {99},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2007},
   Key = {fds248879}
}

@booklet{Lehman95,
   Author = {Lehman, DR and Weller, HR and Whitton, RM},
   Title = {Production of e1 radiation in the h-2(d,gamma)he-4 reaction
             at very-low energies},
   Journal = {Few-body Systems},
   Volume = {18},
   Number = {2-4},
   Pages = {147-157},
   Year = {1995},
   Key = {Lehman95}
}

@booklet{Weller81,
   Author = {Weller, HR and Roberson, NR},
   Title = {Proton and Neutron Radiative Capture},
   Journal = {Ieee Transactions on Nuclear Science},
   Volume = {28},
   Number = {2},
   Pages = {1268-1272},
   Publisher = {Institute of Electrical and Electronics Engineers
             (IEEE)},
   Year = {1981},
   ISSN = {0018-9499},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1981LM27700065&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1109/tns.1981.4331394},
   Key = {Weller81}
}

@booklet{Weller80a,
   Author = {WELLER, HR},
   Title = {PROTON AND NEUTRON RADIATIVE-CAPTURE},
   Journal = {Bulletin of the American Physical Society},
   Volume = {25},
   Number = {7},
   Pages = {775-776},
   Year = {1980},
   ISSN = {0003-0503},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980KH80600244&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Weller80a}
}

@booklet{Wright82,
   Author = {Wright, MC and Roberson, NR and Weller, HR and Tilley, DR and Halderson,
             D},
   Title = {Proton capture in the 19 MeV region of C12},
   Journal = {Physical Review C},
   Volume = {25},
   Number = {5},
   Pages = {2823-2826},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982NQ07100070&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 60°and 90°yield curves for the B11(p,)C12 reaction
             have been measured for Ep=2.9 to 4.6 MeV in 100 keV steps
             for rays leading to the ground and first and third excited
             states. Recent (,) data suggest the existence of an isospin
             mixed doublet near 19.5 MeV in C12. A continuum shell model
             calculation which successfully describes the (,) data
             predicts an observable effect in the 3 channel. However, no
             evidence for these states is found in our 3 data. NUCLEAR
             REACTIONS B11(p,)C12; measured (Ep), Ep=2.9 to 4.6 MeV,
             =60°, 90°, for 0, 1, 3. Compared 3 data to continuum shell
             model calculations. No evidence for 19.25 and/or 19.65 MeV
             states is found. © 1982 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.25.2823},
   Key = {Wright82}
}

@booklet{Weller82a,
   Author = {Weller, HR and Hasan, H and Manglos, S and Mitev, G and Roberson, NR and Blatt, SL and Hausman, HJ and Seyler, RG and Boyd, RN and Donoghue, TR and Kovash, MA and Bacher, AD and Foster, CC},
   Title = {Proton capture to bound and unbound states of
             C12},
   Journal = {Physical Review C},
   Volume = {25},
   Number = {6},
   Pages = {2921-2934},
   Publisher = {American Physical Society (APS)},
   Year = {1982},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1982NU34500007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The cross section for the B11(p,)C12 reaction leading to the
             19 MeV region of C12 has been measured at lab=60°for Ep of
             23 to 60 MeV. Angular distributions of cross sections and
             analyzing powers were measured at Ep=28.7 MeV. The
             B11(p,0,1)C12 cross sections were measured at lab=60°for Ep
             of 8 to 60 MeV, with angular distribution measurements at Ep
             of 14.5, 17.0, and 28.7 MeV. The results are compared to
             direct capture calculations which, in the case of
             transitions to the 19 MeV region, treat the final state as
             both a bound and unbound state. The procedures for
             calculating direct capture to unbound final states are
             described. The possible existence of a giant resonance state
             is discussed. NUCLEAR REACTIONS B11(p,)C12; measured (E) for
             transitions to the 19 MeV region of C12 at =60°for Ep of 23
             to 60 MeV, measured() and A() at 28.7 MeV for these
             transitions. B11(p,0,1)C12, measured (60°) for Ep of 8 to
             60 MeV,() at 14.5, 17.0, and 28.7 MeV. Results are compared
             to direct capture calculations treating the final state both
             as bound and unbound. Procedures for calculating direct
             capture to unbound final states are described. The possible
             existence of giant resonance states is discussed. © 1982
             The American Physical Society.},
   Doi = {10.1103/PhysRevC.25.2921},
   Key = {Weller82a}
}

@booklet{Manglos80,
   Author = {MANGLOS, S and WELLER, HR and ROBERSON, NR and TILLEY, DR and WENDER,
             SA and BLATT, SL},
   Title = {PROTON CAPTURE TO EXCITED-STATES OF BE-8 AND
             N-14},
   Journal = {Bulletin of the American Physical Society},
   Volume = {25},
   Number = {4},
   Pages = {603-603},
   Year = {1980},
   ISSN = {0003-0503},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980JM68800805&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Manglos80}
}

@article{fds248882,
   Author = {Denizli, H and Mueller, J and Dytman, S and Leber, ML and Levine, RD and Miles, J and Kim, KY and Adams, G and Amaryan, MJ and Ambrozewicz, P and Anghinolfi, M and Asavapibhop, B and Asryan, G and Avakian, H and Bagdasaryan, H and Baillie, N and Ball, JP and Baltzell, NA and Barrow,
             S and Batourine, V and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna, N and Bianchi, N and Biselli,
             AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Bültmann, S and Burkert,
             VD and Butuceanu, C and Calarco, JR and Careccia, SL and Carman, DS and Cetina, C and Chen, S and Cole, PL and Coleman, A and Collins, P and Coltharp, P and Cords, D and Corvisiero, P and Crabb, D and Crede, V and Cummings, JP and Dashyan, N and Vita, RD and Sanctis, ED and Degtyarenko, PV and Dennis, L and Deur, A and Dhuga, KS and Dickson, R and Djalali, C and Dodge, GE and Donnelly, J and Doughty, D and Dragovitsch,
             P and Dugger, M and Dzyubak, OP and Egiyan, H and Egiyan, KS and Fassi, LE and Elouadrhiri, L and Empl, A and Eugenio, P and Farhi, L and Fatemi, R and Fedotov, G and Feldman, G and Feuerbach, RJ and Forest, TA and Frolov,
             V and Funsten, H and Gaff, SJ and Garçon, M and Gavalian, G and Gilfoyle,
             GP and Giovanetti, KL},
   Title = {Q2 dependence of the S11(1535) photocoupling and evidence
             for a P-wave resonance in η electroproduction},
   Journal = {Physical Review C},
   Volume = {76},
   Number = {1},
   Pages = {015204},
   Publisher = {American Physical Society (APS)},
   Year = {2007},
   Month = {July},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000248542400073&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {New cross sections for the reaction ep→e'ηp are reported
             for total center-of-mass energy W=1.5-2.3 GeV and invariant
             squared momentum transfer Q2=0.13-3.3 GeV2. This large
             kinematic range allows the extraction of new information
             about response functions, photocouplings, and ηN coupling
             strengths of baryon resonances. A sharp structure is seen at
             W~1.7 GeV. The shape of the differential cross section is
             indicative of the presence of a P-wave resonance that
             persists to high Q2. Improved values are derived for the
             photocoupling amplitude for the S11(1535) resonance. The new
             data greatly expand the Q2 range covered, and an
             interpretation of all data with a consistent parametrization
             is provided. © 2007 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.76.015204},
   Key = {fds248882}
}

@booklet{Williams94,
   Author = {Williams, JZ and Feldman, G and Weller, HR and Tilley,
             DR},
   Title = {Radiative capture of polarized deuterons by 6Li
             and the D-state of 8Be},
   Journal = {Nuclear Physics A},
   Volume = {577},
   Number = {3-4},
   Pages = {653-673},
   Publisher = {Elsevier BV},
   Year = {1994},
   Month = {September},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994PJ06400009&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of angular distributions of the cross section,
             vector and tensor analyzing powers have been performed at
             Ed(lab)= 9.0 MeV and 2.0 MeV for the 6Li(d, γ)8Be reaction.
             Excitation functions were also measured for Ed(lab) =
             7.0-14.0 MeV at θ{symbol}lab = 130°. Transition matrix
             element analyses of the angular distributions were performed
             at both energies. The results of these analyses at Ed(lab)=
             9.0 MeV show the presence of 13-21% E1 radiation in addition
             to the expected dominant E2 radiation. At Ed(lab)= 2.0 MeV
             the reaction has a dominant E1 contribution comprising about
             60% of the cross section. The largest E1 component at both
             energies is the isospin-forbidden E1 transition comprising
             10% of the cross section at Ed(lab)= 9.0 MeV and 40% of the
             cross section at Ed(lab)= 2.0 MeV. The angular distributions
             at Ed(lab)= 9.0 MeV were compared to a simple direct capture
             (DC) calculation, leading to a D-state probability of PD =
             1.5% for the 6Li + d component of the D-state in the ground
             state of 8Be. A multichannel resonating group model (MCRGM)
             calculation was also performed and compared to the data. The
             MCRGM used an effective nucleon-nucleon two-body force and
             predicts a D-state probability of PD = 0.3% for the 6Li + d
             component of the D-state in the ground state of 8Be. ©
             1994.},
   Doi = {10.1016/0375-9474(94)90938-5},
   Key = {Williams94}
}

@booklet{Schmid93,
   Author = {Schmid, GJ and Chasteler, RM and Weller, HR and Tilley,
             DR},
   Title = {Radiative capture of polarized deuterons on
             Li7},
   Journal = {Physical Review C},
   Volume = {48},
   Number = {1},
   Pages = {441-444},
   Publisher = {American Physical Society (APS)},
   Year = {1993},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993LL89300055&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The differential cross section σ(θ), the vector analyzing
             power Ay(θ), and the tensor analyzing power Ayy(θ) have
             been measured for the Li7(d→,γ)9Be reaction at Ed(lab)
             =6.0 MeV. The angle-integrated cross section at this energy
             is estimated to be 4.8±1.0 μb. A transition matrix element
             analysis has been performed on the data. In addition, a
             direct-capture calculation has been performed, and is
             compared to the data. © 1993 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.48.441},
   Key = {Schmid93}
}

@booklet{Riley89,
   Author = {Riley, JC and Weller, HR and Tilley, DR},
   Title = {Radiative capture of tensor and vector polarized deuterons
             by H3 at 400 keV},
   Journal = {Physical Review C},
   Volume = {40},
   Number = {3},
   Pages = {1517-1519},
   Publisher = {American Physical Society (APS)},
   Year = {1989},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1989AP28300050&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The H3(d,)5He reaction observables (), Ay(), and Ayy() have
             been measured at seven angles with a 400 keV incident
             deuteron beam which was stopped in a tritiated titanium
             target. The data have been fit using a transition matrix
             element analysis. This analysis indicates that the cross
             section is primarily channel spin S=(3/2 E1 radiation, with
             approximately 2.5% S=(1/2 E1 radiation and 2.5% M1
             radiation. © 1989 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.40.1517},
   Key = {Riley89}
}

@article{fds248900,
   Author = {Taylor, S and Mutchler, GS and Adams, G and Ambrozewicz, P and Anciant,
             E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Batourine,
             V and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov,
             S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Bültmann, S and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and de Sanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Deur, A and Dharmawardane, KV and Djalali,
             C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman,
             S and Dzyubak, OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl,
             A and Eugenio, P and Fatemi, R and Feldman, G and Fersch, RG and Feuerbach,
             RJ and Forest, TA and Funsten, H and Garçon, M and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Golovatch, E and Gordon, CIO and Gothe, RW and Griffioen, KA and Guidal, M and Guillo, M and Guler, N and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hersman, FW and Hicks, K and Hleiqawi, I and Holtrop, M and Hu, J and Huertas, M},
   Title = {Radiative decays of the Σ0(1385) and Λ(1520)
             hyperons},
   Journal = {Physical Review C},
   Volume = {71},
   Number = {5},
   Pages = {054609},
   Publisher = {American Physical Society (APS)},
   Year = {2005},
   Month = {Winter},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000229440200046&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The electromagnetic decays of the Σ0(1385) and Λ(1520)
             hyperons were studied in photon-induced reactions
             γp→K+Λ(1116) γ in the Large Acceptance Spectrometer
             detector at the Thomas Jefferson National Accelerator
             Facility. We report the first observation of the radiative
             decay of the Σ0(1385) and a measurement of the Λ(1520)
             radiative decay width. For the Σ0(1385)→Λ(1116)γ
             transition, we measured a partial width of
             479±120(stat)-100+81(sys)keV, larger than all of the
             existing model predictions. For the Λ(1520)→Λ(1116) γ
             transition, we obtained a partial width of 167±43(stat)-
             12+26(sys)keV. © 2005 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.71.054609},
   Key = {fds248900}
}

@booklet{August85,
   Author = {August, RA and Weller, HR and Tilley, DR},
   Title = {Radiative deuteron capture into the secondary doorway state
             of C13},
   Journal = {Physical Review C},
   Volume = {32},
   Number = {4},
   Pages = {1420-1423},
   Publisher = {American Physical Society (APS)},
   Year = {1985},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1985ASB4200034&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements were made of the 90°cross sections of the
             B11(d,0) 13C reaction in the energy region of the previously
             reported secondary doorway state in C13. Angular
             distribution data of the cross section, vector analyzing
             power, and tensor analyzing power T20(0) were measured over
             the same energy region. The current data were combined with
             the neutron capture data of the previous study, and both
             data sets were analyzed simultaneously using a secondary
             doorway state formalism. © 1985 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.32.1420},
   Key = {August85}
}

@booklet{Mitev86,
   Author = {Mitev, G and Colby, P and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Radiative neutron capture by deuterium},
   Journal = {Physical Review C},
   Volume = {34},
   Number = {2},
   Pages = {389-400},
   Publisher = {American Physical Society (APS)},
   Year = {1986},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1986D590500004&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The 2H(n,)3H reaction has been studied with polarized and
             unpolarized neutrons of energies ranging from 9 to 14 MeV.
             Angular distributions of cross section were measured at
             En(lab)=9.0, 10.8, and 14.0 MeV, (90°) was measured at 6.85
             MeV, and an analyzing-power angular distribution was
             measured at 9.0 MeV. The results for (theta) agree with the
             existing H3(,n)2H data after detailed balancing. The
             resulting He3(,p)/3H(,n) ratio for 90°cross sections is 1.1
             0.15 down to Ex=10.8 MeV. The T-matrix analysis of the data
             indicates 3% for the E2 contribution to the capture cross
             section comparable to that found earlier for H2(p,)3He and
             in contrast to the predictions [n(E2)/p(E2)=1/25] of a
             two-body direct-capture calculation. © 1986 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.34.389},
   Key = {Mitev86}
}

@booklet{Weller85,
   Author = {H. R. Weller},
   Title = {Radiative-capture in few nucleon systems},
   Journal = {Aip Conference Proceedings},
   Number = {125},
   Pages = {470 -- 482},
   Year = {1985},
   Key = {Weller85}
}

@booklet{Ward80,
   Author = {WARD, L and TILLEY, DR and WENDER, SA and ROBERSON, NR and WELLER, HR and SKOPIK, D},
   Title = {RADIATIVE-CAPTURE OF NEUTRONS BY HE-3},
   Journal = {Bulletin of the American Physical Society},
   Volume = {25},
   Number = {4},
   Pages = {576-576},
   Year = {1980},
   ISSN = {0003-0503},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980JM68800637&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Ward80}
}

@booklet{King81,
   Author = {KING, SE and POTOKAR, M and ROBERSON, NR and WELLER, HR and WENDER, SA and TILLEY, DR},
   Title = {RADIATIVE-CAPTURE OF NEUTRONS BY PB-208},
   Journal = {Bulletin of the American Physical Society},
   Volume = {26},
   Number = {4},
   Pages = {590-590},
   Year = {1981},
   ISSN = {0003-0503},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1981LG91200386&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {King81}
}

@booklet{Jensen80,
   Author = {JENSEN, MJ and TILLEY, DR and WENDER, SA and ROBERSON, NR and WELLER,
             HR},
   Title = {RADIATIVE-CAPTURE OF POLARIZED NEUTRONS BY
             C-13},
   Journal = {Bulletin of the American Physical Society},
   Volume = {25},
   Number = {4},
   Pages = {603-603},
   Year = {1980},
   ISSN = {0003-0503},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1980JM68800806&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Jensen80}
}

@article{fds249029,
   Author = {Nesaraja, CD and Brune, CR and Crowley, BT and Kelley, JH and Nelson,
             SO and Prior, RM and Sabourov, K and Tilley, DR and Tonchev, A and Weller,
             HR},
   Title = {Ratio of S factors for (p, γ) reactions on 12C
             and 13C at astrophysically relevant
             energies},
   Journal = {Physical Review C},
   Volume = {64},
   Number = {6},
   Pages = {658041-658047},
   Year = {2001},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000172733000063&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We present measurements of the 12C(p, γ0)13N/13C(p, γ0)14N
             S factor ratio at Ep=160 keV. The overall result of
             0.33±0.03 is in good agreement with the value of this ratio
             obtained from previous experimental values of the S factors
             for the 12C(p, γ0) 13N and the 13C(p, γ0) 14N reactions. A
             value for the total S factor ratio of S[12C(p,
             γtotal)]/S[13C(p, γtotal)] = 0.24±0.03 is computed by
             correcting the 13C(p, γ0) S factor for transitions to the
             other intermediate states. The direct + resonance model
             calculation of this ratio and the impact on the CNO cycle
             are also explored.},
   Doi = {10.1103/PhysRevC.64.0658XX},
   Key = {fds249029}
}

@article{fds249020,
   Author = {Moss, CE and Frankle, CM and Litvinenko, VN and Weller,
             HR},
   Title = {Recent results using the high intensity γ-ray source
             facility},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {505},
   Number = {1-2},
   Pages = {374-376},
   Publisher = {Elsevier BV},
   Year = {2003},
   Month = {June},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000183713700086&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We describe the high intensity γ-ray source, which produces
             nearly monoenergetic γ-ray beams with energies ranging from
             2 to 58 MeV, intensities of 105-5 × 108γ/s, and 100%
             linear polarization. Upgrades of the facility are in
             progress to increase the energy range and intensity. To
             illustrate some of the present capabilities of the facility,
             we describe the measurement of total photon attenuation
             cross-sections to ±0.5% in the energy range 3.451-14 MeV.
             © 2003 Elsevier Science B.V. All rights
             reserved.},
   Doi = {10.1016/S0168-9002(03)01100-8},
   Key = {fds249020}
}

@booklet{Mitev84,
   Author = {Mitev, G and Weller, HR and Tilley, DR},
   Title = {Relative response of the deuterated liquid scintillator
             NE232 to tritons},
   Journal = {Nuclear Instruments and Methods in Physics
             Research},
   Volume = {224},
   Number = {1-2},
   Pages = {324-326},
   Publisher = {Elsevier BV},
   Year = {1984},
   Month = {July},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984TE50000046&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Light output for recoiling tritons at six energies from 2.3
             to 4.1 MeV relative to recoiling 6.1 MeV deuterons has been
             measured and compared to a semi-empirical calculation. ©
             1984.},
   Doi = {10.1016/0167-5087(84)90486-1},
   Key = {Mitev84}
}

@article{fds152674,
   Author = {Henry R. Weller et al.},
   Title = {Research Opportunities at the upgraded HIGS
             Facility},
   Journal = {Progress in Nuclear and Particle Physics},
   Volume = {62},
   Pages = {257-303},
   Publisher = {Elsevier},
   Year = {2008},
   url = {http://elsevier.com/locate/ppnp},
   Key = {fds152674}
}

@article{fds248875,
   Author = {Weller, HR and Ahmed, MW and Gao, H and Tornow, W and Wu, YK and Gai, M and Miskimen, R},
   Title = {Research opportunities at the upgraded HIγS
             facility},
   Journal = {Progress in Particle and Nuclear Physics},
   Volume = {62},
   Number = {1},
   Pages = {257-303},
   Publisher = {Elsevier BV},
   Year = {2009},
   Month = {January},
   ISSN = {0146-6410},
   url = {http://dx.doi.org/10.1016/j.ppnp.2008.07.001},
   Abstract = {The High Intensity γ-ray Source (HIγS) is a joint project
             between the Triangle Universities Nuclear Laboratory (TUNL)
             and the Duke Free Electron Laser Laboratory (DFELL). This
             facility utilizes intra-cavity back-scattering of the FEL
             light in order to produce intense γ-ray beams. An upgrade
             which allows for the production of γ-rays up to energies of
             about 100 MeV having total intensities in excess of 108/s is
             essentially complete. The primary component of the upgrade
             is a 1.2 GeV booster-injector which makes it possible to
             replace lost electrons at full energy. In addition, an
             upgrade of the present linear undulator to a helical system
             has made it possible to produce nearly 100% linear and
             circularly polarized beams. The full system was commissioned
             in the early part of 2007. A nuclear physics research
             program using beams at energies below 50 MeV commenced in
             the fall of 2007. The proposed experimental program includes
             low-energy studies of nuclear reactions of importance in
             nuclear astrophysics as well as studies of nuclear structure
             using the technique of nuclear resonance fluorescence (NRF).
             Few-body nuclear physics problems will also be addressed by
             studying photodisintegration of d, 3He and 4He. Future
             double-polarization experiments include a study of the
             Gerasimov-Drell-Hearn Sum Rule for the deuteron and 3He, and
             an extensive Compton scattering program designed to probe
             the internal structure of the nucleon. A major focus of
             these studies will be the measurement of the electric and
             magnetic polarizabilities as well as the
             spin-polarizabilities of the proton and the neutron. This
             review will describe the principles of operation of the
             upgraded facility, followed by a description of the
             performance which has been achieved to date, and a
             projection of the performance anticipated in the near
             future. Following this, we will review several of the
             research areas of nuclear physics which are accessible using
             this facility, and describe both the results to date and
             proposed experiments being developed for the future. © 2008
             Elsevier B.V. All rights reserved.},
   Doi = {10.1016/j.ppnp.2008.07.001},
   Key = {fds248875}
}

@booklet{Wijekumar91,
   Author = {Wijekumar, V and Williams, JZ and Feldman, G and Weller, HR and Tilley,
             DR},
   Title = {Resolution of the twofold ambiguity in the E1 capture
             amplitudes for the C13(p,)14N reaction},
   Journal = {Physical Review C},
   Volume = {43},
   Number = {3},
   Pages = {1363-1366},
   Publisher = {American Physical Society (APS)},
   Year = {1991},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1991FA99000048&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The analysis of the cross section and analyzing power data
             of the 13C(p,0)14N reaction leads to two solutions for the
             E1 amplitudes and phases which contribute in the region of
             the giant dipole resonance. One of these solutions indicates
             that the reaction proceeds predominantly via d-wave capture
             while the other corresponds to predominant s-wave capture.
             In the present work, we have used the interference between
             the Ep=3.11 MeV M1 resonance and the E1-dominated background
             to determine which of the two off-resonance E1 solutions is
             the correct (physical) one. The results show that the
             dominant d-wave capture solution is the correct one in the
             region of this resonance, demonstrating that the low-energy
             off-resonance E1 strength has the same (dominant d-wave)
             structure as that expected from the giant dipole resonance.
             © 1991 The American Physical Society.},
   Doi = {10.1103/PhysRevC.43.1363},
   Key = {Wijekumar91}
}

@booklet{Manglos81,
   Author = {Manglos, S and Roberson, NR and Weller, HR and Tilley,
             DR},
   Title = {Search for a giant resonance built on the 16.6-MeV state in
             Be8},
   Journal = {Physical Review C},
   Volume = {24},
   Number = {5},
   Pages = {2378-2381},
   Publisher = {American Physical Society (APS)},
   Year = {1981},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1981MS03500065&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The yield curve for proton capture on Li7, leading to the
             region of the isospin-mixed pair of states at Ex=16.63 and
             16.92 MeV in Be8, has been measured as a function of
             bombarding energy from 4 to 30 MeV. A direct capture model
             provides a good description of the data. NUCLEAR REACTIONS
             Li7(p,)Be*82; measured (E,) leading to the 16.6-16.9-MeV
             states for Ep=11.5 to 30 MeV by -ray detection. Measured (E)
             for Ep=4 to 13 MeV by detection of 2. Natural target.
             Compared to direct capture model. © 1981 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.24.2378},
   Key = {Manglos81}
}

@article{fds249032,
   Author = {Guenther, BD and Weller, HR and Godwin, JL},
   Title = {Search for nuclear isotopes for use in a nuclear
             battery},
   Journal = {Journal of Propulsion and Power},
   Volume = {17},
   Number = {3},
   Pages = {540-546},
   Publisher = {American Institute of Aeronautics and Astronautics
             (AIAA)},
   Year = {2001},
   Month = {January},
   ISSN = {0748-4658},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000168804600008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Performance of a radioisotopic thermoelectric generator for
             a human-portable energy source is discussed. The design of
             thermoelectric generators is not considered. Instead
             desirable characteristics of the radioisotope are used to
             search for reasonable candidates with a half-life measured
             in weeks and generating radiation that could easily be
             shielded. Because radioisotopes with short half-lives would
             have limited shelf-lives, a search was undertaken to
             discover if isomers with different decay paths existed with
             characteristics that would lead to a useful energy generator
             design. The results indicate several interesting cases for
             energy storage in radioactive isotopes. Two of the most
             interesting cases uncovered were 121Te and 254Es. However,
             intermediate levels that could be used to connect the
             various nuclear energy levels are not currently known.
             Measurements of transition rates that can be stimulated
             between the desired levels are also needed to determine the
             practicality of this concept. Such research is now possible
             using the intense gamma beam that can be produced using
             free-electron laser light backscattered from relativistic
             electrons.},
   Doi = {10.2514/2.5809},
   Key = {fds249032}
}

@booklet{Godwin96,
   Author = {Godwin, MA and Chasteler, RM and Laymon, CM and Prior, RM and Tilley,
             DR and Weller, HR},
   Title = {Search for p waves in low-energy proton capture reactions
             relevant to the solar neutrino problem},
   Journal = {Physical Review C},
   Volume = {53},
   Number = {1},
   Pages = {R1-R4},
   Publisher = {American Physical Society (APS)},
   Year = {1996},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996TR76100001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A previous study of the ground-state transition of the 7 Li(
             → p,γ) 8 Be reaction at energies of E p (lab)=80-0 keV
             indicated the possibility of a large p-wave capture
             amplitude in this reaction. A similar p-wave component in
             the 7 Be(p,γ) 8 B reaction could seriously affect the
             extrapolation used to obtain the astrophysical S factor. The
             present work examines this possibility by observing the
             closely related 7 Li( → p,γ 16.6 ) 8 Be* (2 + , T=0+ 1)
             reaction with polarized protons at and below 80 keV.
             Experimental data for σ(θ)/A 0 and A y (θ) for capture to
             the third (16.6 MeV) excited state of 8 Be are presented,
             and the implications discussed.},
   Doi = {10.1103/PhysRevC.53.R1},
   Key = {Godwin96}
}

@article{fds248891,
   Author = {Egiyan, H and Aznauryan, IG and Burkert, VD and Griffioen, KA and Joo,
             K and Minehart, R and Smith, LC and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Audit, G and Auger,
             T and Avakian, H and Bagdasaryan, H and Ball, JP and Baltzel, N and Barrow,
             S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Bianchi, N and Biselli, AS and Boiarinov, S and Bonner,
             BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Butuceanu, C and Calarco, JR and Careccia, SL and Carman,
             DS and Carnahan, B and Cetina, C and Chen, S and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings,
             JP and DeSanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Dharmawardane, KV and Djalali, C and Dodge, GE and Donnely, J and Doughty, D and Dragovitsch, P and Dugger, M and Dytman,
             S and Dzyubak, OP and Eckhause, M and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Fedotov, G and Feldman, G and Feuerbach, RJ and Forest, TA and Funsten, H and Gaff, SJ and Gai, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard,
             P and Goetz, GT and Gordon, CIO and Gothe, R and Guidal, M and Guillo, M and Guler, N and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hersman, FW},
   Title = {Single π+ electroproduction on the proton in the first and
             second resonance regions at 0.25GeV2<Q2<0.65GeV2},
   Journal = {Physical Review C},
   Volume = {73},
   Number = {2},
   Pages = {025204},
   Publisher = {American Physical Society (APS)},
   Year = {2006},
   Month = {Winter},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000235669300048&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The ep→e'π+n reaction was studied in the first and second
             nucleon resonance regions in the 0.25 GeV2<Q2<0.65 GeV2
             range by use of the CLAS detector at Thomas Jefferson
             National Accelerator Facility. For the first time, to our
             knowledge, the absolute cross sections were measured,
             covering nearly the full angular range in the hadronic
             center-of-mass frame. We extracted the structure functions
             σTL,σTT, and the linear combination σT+εσL by fitting
             the dependence of the measured cross sections and compared
             them with the MAID and Sato-Lee models. © 2006 The American
             Physical Society.},
   Doi = {10.1103/PhysRevC.73.025204},
   Key = {fds248891}
}

@article{fds249040,
   Author = {Spraker, M and Prior, RM and Godwin, MA and Rice, BJ and Wulf, EA and Kelley, JH and Tilley, DR and Weller, HR},
   Title = {Slope of the astrophysical S factor for the
             7Li(p,γ)8Be reaction},
   Journal = {Physical Review C},
   Volume = {61},
   Number = {1},
   Pages = {158021-158026},
   Year = {2000},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000084778800042&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Polarized proton beams of 80 and 60 keV, and a biased target
             have been used to determine the slope of the astrophysical S
             factor for the 7Li(p,γ)8Be reaction from direct
             measurements at proton energies from 40 to 100 keV for
             capture to both the ground and the first excited states of
             8Be. The results indicate a negative slope for both cases.
             Vector analyzing power measurements at 90° were also
             obtained for proton energies from 40 to 80 keV. It is shown
             that the negative slope can be accounted for by considering
             the effect of the subthreshold resonance state at 16.6 MeV
             if the capture into this weakly bound, subthreshold state
             occurs at an effective radius of about 46 fm. The effect of
             this state increases the extrapolated value of the S factor
             at Ep=0 from the previous value of 0.3 keV b to the present
             value of 0.50 keV b.},
   Key = {fds249040}
}

@article{fds29591,
   Author = {A. Biselli for the CLAS Collaboration (including H.R.
             Weller)},
   Title = {Study of the Delta (1232) using Single and Double
             Polarization Asymmetries},
   Journal = {Physical Review},
   Volume = {C68},
   Pages = {035202},
   Publisher = {The American Physical Society},
   Year = {2004},
   url = {http://www.aps.org},
   Key = {fds29591}
}

@article{fds248897,
   Author = {Protopopescu, D and Hersman, FW and Holtrop, M and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu,
             M and Bellis, M and Benmouna, N and Berman, BL and Bertozzi, W and Bianchi,
             N and Biselli, AS and Boiarinov, S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert,
             VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Chen, S and Cole, PL and Coleman, A and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and Debruyne, D and De Sanctis and E and DeVita, R and Degtyarenko, PV and Dennis, L and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge,
             GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak, OP and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Feuerbach, RJ and Forest, TA and Funsten,
             H and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gordon, CIO and Gothe, RW and Griffioen, KA and Guidal, M and Guillo, M and Guler, N and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hicks, K and Hleiqawi,
             I},
   Title = {Survey of ALT′ asymmetries in semi-exclusive
             electron scattering on 4He and
             12C},
   Journal = {Nuclear Physics A},
   Volume = {748},
   Number = {3-4},
   Pages = {357-373},
   Publisher = {Elsevier BV},
   Year = {2005},
   Month = {February},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000226997100001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Single spin azimuthal asymmetries ALT′ were measured at
             Jefferson Lab using 2.2 and 4.4 GeV longitudinally polarised
             electrons incident on 4He and 12C targets in the CLAS
             detector. ALT′ is related to the imaginary part of the
             longitudinal-transverse interference and in quasifree
             nucleon knockout it provides an unambiguous signature for
             final state interactions (FSI). Experimental values of
             ALT′ were found to be below 5%, typically ALT′ ≤ 3%
             for data with good statistical precision. Optical model in
             eikonal approximation (OMEA) and relativistic
             multiple-scattering Glauber approximation (RMSGA)
             calculations are shown to be consistent with the measured
             asymmetries. © 2004 Elsevier B.V. All rights
             reserved.},
   Doi = {10.1016/j.nuclphysa.2004.11.009},
   Key = {fds248897}
}

@booklet{Schmid96c,
   Author = {Schmid, GJ and Chasteler, RM and Weller, HR and Tilley, DR and Fonseca,
             AC and Lehman, DR},
   Title = {T20measurements forH1(d→,γ)3He and theP-wave component of
             the nucleon-nucleon force},
   Journal = {Physical Review C},
   Volume = {53},
   Number = {1},
   Pages = {35-40},
   Publisher = {American Physical Society (APS)},
   Year = {1996},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996TR76100010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.53.35},
   Key = {Schmid96c}
}

@booklet{Seyler85,
   Author = {Seyler, RG and Weller, HR},
   Title = {Tensor analyzing powers T20(θ) and T22(θ) in the
             H2(darrow,γ) 4He reaction},
   Journal = {Physical Review C},
   Volume = {31},
   Number = {5},
   Pages = {1952-1954},
   Publisher = {American Physical Society (APS)},
   Year = {1985},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1985AHA0100046&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Reaction theory expressions are used to prove that the
             tensor analyzing powers T20(θ) and T22(θ) for the
             H2(darrow,γ) 4He reaction are isotropic if the reaction is
             pure E2 and terms quadratic in channel-spin-2 matrix
             elements are neglected. Experimental departures from
             isotropy can be expected near θ-0°, 90°, and 189°. ©
             1985 The American Physical Society.},
   Doi = {10.1103/PhysRevC.31.1952},
   Key = {Seyler85}
}

@article{fds249007,
   Author = {McCormick, K and Audit, G and Laget, JM and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov,
             S and Bonner, BE and Bouchigny, S and Bradford, R and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Chen, S and Cole, PL and Coleman, A and Connelly, J and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, JP and de Sanctis, E and DeVita, R and Degtyarenko, PV and Denizli, H and Dennis, L and Dharmawardane, KV and Djalali, C and Dodge,
             GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak, OP and Eckhause, M and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Eugenio, P and Farhi, L and Feuerbach, RJ and Ficenec, J and Forest, TA and Frolov, V and Funsten, H and Gaff, SJ and Gai, M and Garçon, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hancock, D and Hardie, J and Heddle, D and Hersman, FW and Hicks, K},
   Title = {Tensor polarization of the φ meson photoproduced at high
             t},
   Journal = {Physical Review C},
   Volume = {69},
   Number = {3},
   Pages = {032203},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000220607200016&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {As part of a measurement [E. Anciant et al., Phys. Rev.
             Lett. 85, 4682 (2000)] of the cross section of φ meson
             photoproduction to high momentum transfer, we measured the
             polar angular decay distribution of the outgoing K + in the
             channel φ → K + K - in the φ center-of-mass frame (the
             helicity frame). We find that s-channel helicity
             conservation (SCHC) holds in the kinematical range where
             t-channel exchange dominates (up to -t ∼ 2.5 GeV 2 for E
             γ = 3.6 GeV). Above this momentum, u-channel production of
             a φ meson dominates and induces a violation of SCHC. The
             deduced value of the φNN coupling constant lies in the
             upper range of previously reported values.},
   Doi = {10.1103/PhysRevC.69.032203},
   Key = {fds249007}
}

@booklet{Weller84,
   Author = {Weller, HR and Colby, P and Roberson, NR and Tilley,
             DR},
   Title = {Tensor-polarized-deuteron capture on deuterium and the D
             state of He4},
   Journal = {Physical Review Letters},
   Volume = {53},
   Number = {14},
   Pages = {1325-1328},
   Publisher = {American Physical Society (APS)},
   Year = {1984},
   Month = {January},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984TK96900007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The tensor analyzing power T20() of the reaction H2(d,)He4
             has been measured at six angles at Ed=9.7 MeV. The result is
             found to be isotropic with a value of T20=-0.220.014. This
             analyzing power arises from the interference of S=0 and S=2
             capture amplitudes. Since the reaction proceeds
             predominantly via E2 radiation, the S=2 capture strength can
             be attributed to S=2, L=2 ground-state admixtures. A
             heuristic model calculation has been used to show that a
             4.8% D-state admixture in the two-deuteron wave function
             describing He4 can account for the observed T20. © 1984 The
             American Physical Society.},
   Doi = {10.1103/PhysRevLett.53.1325},
   Key = {Weller84}
}

@article{fds28964,
   Author = {A. P. Tonchev and S. O. Nelson and K. Sabourov and B.T. Crowley and K.
             Joshi, H. R. Weller and J. H. Kelley and R. M. Prior and M. Spraker and N. Kalantar-Nayestanaki},
   Title = {The 10B(p,g)11C Reaction at Astrophysically Relevant
             Energies},
   Journal = {Physical Review},
   Volume = {C68},
   Pages = {045803},
   Publisher = {American Physical Society},
   Year = {2004},
   url = {http://aps.org},
   Key = {fds28964}
}

@article{fds249025,
   Author = {Tonchev, AP and Nelson, SO and Sabourov, K and Crowley, BT and Joshi, K and Weller, HR and Kelley, JH and Prior, RM and Spraker, M and Kalantar,
             N},
   Title = {The 10B(p,gamma)11C Reaction at Astrophysically Relevant
             Energies},
   Journal = {Physical Review C},
   Volume = {C68},
   Pages = {045803},
   Publisher = {American Physical Society},
   Year = {2003},
   url = {http://aps.org/},
   Key = {fds249025}
}

@article{fds248889,
   Author = {Sabourov, A and Ahmed, MW and Blackston, MA and Crowell, AS and Howell,
             CR and Joshi, K and Nelson, SO and Perdue, BA and Sabourov, K and Tonchev,
             A and Weller, HR and Prior, RM and Spraker, MC and Braizinha, B and Kalantar Nayestanaki and N},
   Title = {The 7Li(d,n0)8Be and 7Li(d,n1)8Be reactions below 160
             keV},
   Journal = {Physical Review C},
   Volume = {74},
   Pages = {064611},
   Publisher = {THE AMERICAN PHYSICAL SOCIETY},
   Year = {2006},
   Month = {December},
   url = {http://aps.org/},
   Key = {fds248889}
}

@booklet{Weller90,
   Author = {Weller, HR},
   Title = {The d-state of 4He and the 2H(d,γ)
             4He reaction from Ed = 800 keV-to-50
             MeV},
   Journal = {Nuclear Physics A},
   Volume = {508},
   Number = {C},
   Pages = {273-279},
   Publisher = {Elsevier BV},
   Year = {1990},
   Month = {January},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1990CU71600029&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1016/0375-9474(90)90484-4},
   Key = {Weller90}
}

@booklet{Weller88a,
   Author = {Weller, HR and Whitton, RM and Langenbrunner, J and Hayward, E and Dodge, WR and Kuhn, S and Tilley, DR},
   Title = {The energy dependence of polarization observables in the
             2H(d,γ)4He reaction},
   Journal = {Physics Letters B},
   Volume = {213},
   Number = {4},
   Pages = {413-418},
   Publisher = {Elsevier BV},
   Year = {1988},
   Month = {November},
   ISSN = {0370-2693},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1988Q882100001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of the tensor and vector analyzing powers,
             Ayy(130°) and Ay(130°), have been obtained for the 2H(d,γ
             )4He reaction for energies ranging from Ed(lab) = 0.3 MeV to
             Ed(lab) = 50 MeV. The Ayy(130°) data are sensitive to the
             D-state present in the ground state of 4He and are observed
             to have their maximum value near Ed = 30 MeV. The vector
             analyzing power data show a maximum near Ed = 3 MeV. The
             data are compared to the results of a microscopic
             multi-channel resonating group model calculation. ©
             1998.},
   Doi = {10.1016/0370-2693(88)91283-X},
   Key = {Weller88a}
}

@article{fds249031,
   Author = {Thompson, R and Dytman, S and Kim, KY and Mueller, J and Adams, GS and Amaryan, MJ and Anciant, E and Anghinolfi, M and Asavapibhop, B and Auger, T and Audit, G and Avakian, H and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bertozzi, W and Bianchi, N and Biselli,
             A and Boiarinov, S and Bonner, BE and Briscoe, WJ and Brooks, W and Burkert, VD and Calarco, JR and Capitani, G and Carman, DS and Carnahan,
             B and Cole, PL and Coleman, A and Connelly, J and Cords, D and Corvisiero,
             P and Crabb, D and Crannell, H and Cummings, J and Day, D and Degtyarenko,
             PV and Demirchyan, RA and Dennis, LC et al.},
   Title = {The ep -> e'p eta reaction at and above the S-11(1535)
             baryon resonance},
   Journal = {Physical Review Letters},
   Volume = {86},
   Number = {9},
   Pages = {1702-1706},
   Year = {2001},
   Month = {February},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000167172400010&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevLett.86.1702},
   Key = {fds249031}
}

@conference{fds3751,
   Author = {H.R. Weller},
   Title = {The HIGS Facility-A Free-Electron Laser Genrated Gamma-Ray
             Beam for Nuclear Physics},
   Booktitle = {Proceedings of the International Symposium: Electromagnetic
             Interactions in Nuclear and Hadron Physics},
   Publisher = {World Scientific Publishing Co.},
   Editor = {Mamoru Fujiwara and Tatsushi Shima},
   Year = {2002},
   Month = {December},
   Abstract = {The High Intensity Gamma Ray Source (HIGS), a collaborative
             project between TUNL and the Duke Free Electron Laser
             Laboratory at Duke University is described. The results of
             some intial experiments and plans for the future research
             program are discussed.},
   Key = {fds3751}
}

@article{fds249021,
   Author = {Weller, HR and Ahmed, MW},
   Title = {The HIGS Facility: A Free-Electron Laser Generated Gamma-Ray
             Beam for Research in Nuclear Physics},
   Journal = {Modern Physics Letters A},
   Volume = {18},
   Number = {23},
   Pages = {1569-1589},
   Publisher = {World Scientific},
   Year = {2003},
   Month = {July},
   url = {http://www.worldscientific.com/},
   Key = {fds249021}
}

@article{fds29620,
   Author = {H.R. Weller},
   Title = {The HIGS Facility: A Free-Electron Laser Generated Gamma-Ray
             Beam for Research in Nuclear Physics},
   Pages = {S378},
   Booktitle = {Few-Body Problems in Physics},
   Publisher = {Elsevier},
   Editor = {W. Gloeckle and W. Tornow},
   Year = {2004},
   Key = {fds29620}
}

@booklet{Delsanto83,
   Author = {DELSANTO, PP and WELLER, HR and BIEDENHARN, LC},
   Title = {THE PUZZLE OF THE SIGMA(GAMMA,P) SIGMA(GAMMA,N) RATIO IN
             HE-4},
   Journal = {Arabian Journal for Science and Engineering},
   Volume = {8},
   Number = {4},
   Pages = {325-329},
   Year = {1983},
   ISSN = {0377-9211},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1983RZ59400005&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {Delsanto83}
}

@booklet{Carman96,
   Author = {Carman, TS and Litveninko, V and Madey, J and Neuman, C and Norum, B and O'Shea, PG and Roberson, NR and Scarlett, CY and Schreiber, E and Weller, HR},
   Title = {The TUNL-FELL inverse Compton γ-ray source as a nuclear
             physics facility},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {378},
   Number = {1-2},
   Pages = {1-20},
   Publisher = {Elsevier BV},
   Year = {1996},
   Month = {August},
   ISSN = {0168-9002},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1996VB36200001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {A new technique for producing an intense beam of polarized
             γ-rays is presented. This High-Intensity Gamma-ray Source
             (HIGS) will utilize the facilities of the new Duke Free
             Electron Laser Laboratory. This system includes the LINAC
             injector, the 1.3 GeV electron storage ring, and the OK-4
             undulator. It will be shown that it is possible to tune the
             electron beam in a manner which allows the FEL photons to
             backscatter from an electron bunch, all within the ring.
             This leads to an intense beam of almost 100% linearly
             polarized γ-rays whose energy can be readily tuned from
             about 5 to greater than 200 MeV. Furthermore, beam energy
             spreads of less than 1% can be obtained by pure geometrical
             collimation. Details of the beam properties and background
             sources will be presented. It will be shown that this is an
             ideal beam for nuclear physics and nuclear astrophysics
             studies. One example of this which takes advantage of the
             flux, energy resolution and polarization of the beam, is the
             study of Δ33excitations in finite nuclei. These intense
             polarized beams will also make it possible to perform
             precision measurements of the nucleon polarizabilities. And
             we will see that studies in the vicinity of the photo-pion
             production threshold can provide crucial tests of many of
             the recent predictions (Low Energy Theorems) of Chiral
             Perturbation Theory. Our final example will show how the
             very intense beams available at low energies can be used to
             determine astrophysically important capture cross sections
             by measurements of the inverse reactions.},
   Doi = {10.1016/0168-9002(95)01486-1},
   Key = {Carman96}
}

@booklet{Schmid97,
   Author = {Schmid, GJ and Rice, BJ and Chasteler, RM and Godwin, MA and Kiang, GC and Kiang, LL and Laymon, CM and Prior, RM and Tilley, DR and Weller,
             HR},
   Title = {The2H(p→,γ)3He and1H(d→,γ)3He reactions below 80
             keV},
   Journal = {Physical Review C},
   Volume = {56},
   Number = {5},
   Pages = {2565-2581},
   Publisher = {American Physical Society (APS)},
   Year = {1997},
   Month = {November},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1997YH00900028&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.56.2565},
   Key = {Schmid97}
}

@booklet{Williams91,
   Author = {Williams, JZ and Feldman, G and Weller, HR and Tilley,
             DR},
   Title = {The6Li(d, γ)8Be reaction at
             Ed=9.0 MeV and the D-state of8Be},
   Journal = {Physics Letters B},
   Volume = {273},
   Number = {3},
   Pages = {216-221},
   Publisher = {Elsevier BV},
   Year = {1991},
   Month = {December},
   ISSN = {0370-2693},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1991GX50400005&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of the6Li(d, γ)8Be cross section, σ(θ), the
             vector analyzing power, Ay(θ) and the tensor analyzing
             powers, Ayy(θ) and T20(θ), have been obtained at 〈Ed
             Lab〉=9.0 MeV. A transition matrix element analysis was
             performed. A direct-capture and a multichannel resonating
             group model (MCRGM) calculation indicated a6Li + d D-state
             probability of (0.3-1.5)% in the ground state of8Be. ©
             1991.},
   Doi = {10.1016/0370-2693(91)91674-K},
   Key = {Williams91}
}

@article{fds249030,
   Author = {Weller, HR},
   Title = {Threshold contribution to the Gerasimov-Drell-Hearn sum rule
             in He-3},
   Journal = {Nuclear Physics A},
   Volume = {684},
   Pages = {516C-520C},
   Year = {2001},
   Month = {March},
   ISSN = {0375-9474},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000167628700099&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {fds249030}
}

@article{fds249034,
   Author = {Weller, HR},
   Title = {Threshold contribution to the Gerasimov-Drell-Hearn sum rule
             in He-3},
   Journal = {Few Body Problems in Physics '99},
   Volume = {12},
   Pages = {287-292},
   Year = {2000},
   ISSN = {0177-8811},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000166770100050&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Key = {fds249034}
}

@article{fds249036,
   Author = {Rice, BJ and Canon, RS and Wulf, EA and Weller, HR and Keeter, K and Kolb,
             NR and Mueller, C and Pywell, RE and Retzlaff, GA and Skopik, DM and Feldman, G},
   Title = {Two-deuteron photodisintegration of 4 He at
             Eγ=150-250 MeV},
   Journal = {Physical Review C},
   Volume = {61},
   Number = {6},
   Pages = {646121-646128},
   Publisher = {American Physical Society (APS)},
   Year = {2000},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000087575000055&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {We have performed a measurement of the cross section for the
             4 He(γ,dd) reaction with photon energies between 150 and
             250 MeV. Both reaction particles were detected in
             coincidence. We obtained absolute cross sections at six
             angles and two energy bins (150-190 MeV and 190-250 MeV). A
             Legendre polynomial fit to the angular distribution shows a
             sin 2 θ distribution which suggests the isospin-forbidden
             E1 transition. However, a transition matrix element (TME)
             analysis using only strictly allowed transitions shows that
             the angular distribution can be described by just two TMEs:
             E2 s- and d-wave absorption on the D state of 4 He. We
             performed an inverse direct-capture calculation in order to
             determine if the D state could contribute to such a high
             degree to the cross section. This calculation indicates that
             90% of the cross section arises from absorption on the D
             state but fails to reproduce the observed sin 2 θ angular
             distribution.},
   Doi = {10.1103/physrevc.61.064612},
   Key = {fds249036}
}

@booklet{Langenbrunner90,
   Author = {Langenbrunner, JL and Weller, HR and Tilley, DR},
   Title = {Two-deuteron radiative capture: Polarization observables
             atEd≤15 MeV},
   Journal = {Physical Review C},
   Volume = {42},
   Number = {4},
   Pages = {1214-1224},
   Publisher = {American Physical Society (APS)},
   Year = {1990},
   Month = {October},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1990EE08600013&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.42.1214},
   Key = {Langenbrunner90}
}

@article{fds249009,
   Author = {Niyazov, RA and Weinstein, LB and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit,
             G and Auger, T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow,
             S and Battaglieri, M and Beard, K and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Boiarinov,
             S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco, JR and Carman,
             DS and Carnahan, B and Cetina, C and Chen, S and Ciciani, L and Cole, PL and Coleman, A and Cords, D and Corvisiero, P et al.},
   Title = {Two-nucleon momentum distributions measured in He-3(e,e '
             pp)n},
   Journal = {Physical Review Letters},
   Volume = {92},
   Number = {5},
   Pages = {052303},
   Publisher = {The American Physical Society},
   Year = {2004},
   Month = {February},
   ISSN = {0031-9007},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000188785200015&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/PhysRevLett.92.052303},
   Key = {fds249009}
}

@booklet{Vetterli88,
   Author = {Vetterli, MC and Kuehner, JA and Bamber, C and Davis, N and Trudel, AJ and Weller, HR and Whitton, RM},
   Title = {Vector analyzing powers for H1(,)3He and
             H2(p,)3He},
   Journal = {Physical Review C},
   Volume = {38},
   Number = {6},
   Pages = {2503-2508},
   Publisher = {American Physical Society (APS)},
   Year = {1988},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1988R277300002&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The vector analyzing powers for the H1(,)3He and H2(,) He3
             reactions have been measured near threshold (E=7.5 MeV). The
             angular distribution of the cross section was also measured
             for the H2(p,)3He reaction. The ratio of the analyzing
             powers is sensitive to the presence of S=(3/2 capture
             strength. It was found that a 10% contribution to the
             capture by M1 radiation (predominantly S=(3/2) is required
             to explain the data. © 1988 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.38.2503},
   Key = {Vetterli88}
}

@booklet{King84,
   Author = {King, S and Roberson, NR and Weller, HR and Tilley, DR and Engelbert,
             HP and Berg, H and Huttel, E and Clausnitzer, G},
   Title = {Vector analyzing powers of H1(d,γ) and H2(p,γ) reactions
             at Ex=6 MeV},
   Journal = {Physical Review C},
   Volume = {30},
   Number = {4},
   Pages = {1335-1338},
   Publisher = {American Physical Society (APS)},
   Year = {1984},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1984TM47400033&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The vector analyzing powers have been measured for the
             H1(d→,γ) He3 and the H2(p→,γ)He3 reactions at Ex=6
             MeV. The results indicate the presence of channel spin 32
             capture strength. An M 1 strength amounting to between 1 and
             8% of the cross section is able to explain the observations
             if a significant s=32 component is included. © 1984 The
             American Physical Society.},
   Doi = {10.1103/PhysRevC.30.1335},
   Key = {King84}
}

@article{fds249011,
   Author = {Biselli, A and Adams, GS and Amaryan, MJ and Anciant, E and Anghinolfi,
             M and Asavapibhop, B and Asryan, G and Audit, G and Auger, T and Avakian,
             H and Barrow, S and Battaglieri, M and Beard, K and Bektasoglu, M and Bertozzi, W and Bianchi, N and Boiarinov, S and Bonner, BE and Bosted,
             P and Bouchigny, S and Bradford, R and Branford, D and Brooks, WK and Bueltmann, S and Burkert, VD and Calarco, JR and Carman, DS and Carnahan, B and Cetina, C and Ciciani, L and Cole, PL and Coleman, A and Connelly, J and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings, J and Sanctis, E and Vita, R and Degtyarenko, PV and Demirchyan, RA and Denizli, H and Dennis, LC and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Domingo, J and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Eckhause, M and Efremenko, YV and Egiyan, H and Egiyan, KS and Elouadrhiri, L and Empl,
             A and Eugenio, P and Farhi, L and Fatemi, R and Feuerbach, RJ and Ficenec,
             J and Fissum, K and Forest, TA and Freyberger, A and Frolov, V and Funsten,
             H and Gaff, SJ and Gai, M and Gavalian, G and Gavrilov, VB and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Golovatch, E and Griffioen, KA and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hanock, D and Hardie, J and Heddle, D and Hersman, FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright, CE and Ito, MM and Jenkins, D and Joo, K and Kelley, JH and Khandaker,
             M},
   Title = {[Formula Presented] reaction studied in the [Formula
             Presented] mass region using polarization
             asymmetries},
   Journal = {Physical Review C},
   Volume = {68},
   Number = {3},
   Pages = {035202},
   Publisher = {American Physical Society (APS)},
   Year = {2003},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000186510900075&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of the angular distributions of target and
             double-spin asymmetries for the [Formula Presented] in the
             exclusive channel [Formula Presented] obtained at the
             Jefferson Lab in the [Formula Presented] range from 0.5 to
             [Formula Presented] are presented. Results of the
             asymmetries are compared with the unitary isobar model [D.
             Drechsel et al., Nucl. Phys. A645, 145 (1999)], dynamical
             models [T. Sato and T. S. Lee, Phys. Rev. C 54, 2660 (1996);
             S. S. Kamalov et al., Phys. Lett. B 27, 522 (2001)], and the
             effective Lagrangian theory [R. M. Davidson et al., Phys.
             Rev. D 43, 71 (1991)]. Sensitivity to the different models
             was observed, particularly in relation to the description of
             background terms on which the target asymmetry depends
             significantly. © 2003 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.68.035202},
   Key = {fds249011}
}

@article{fds248883,
   Author = {Dugger, M and Ritchie, BG and Ball, JP and Collins, P and Pasyuk, E and Arndt, RA and Briscoe, WJ and Strakovsky, II and Workman, RL and Adams,
             G and Amarian, M and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Avakian, H and Bagdasaryan, H and Baillie, N and Baltzell, NA and Barrow, S and Battaglieri, M and Beard, K and Bedlinskiy, I and Bektasoglu, M and Bellis, M and Benmouna, N and Berman, BL and Bianchi, N and Biselli, AS and Bonner, BE and Bouchigny, S and Boiarinov, S and Bradford, R and Branford, D and Brooks, WK and Bültmann, S and Burkert, VD and Butuceanu, C and Calarco, JR and Careccia, SL and Carman, DS and Carnahan, B and Chen, S and Cole, PL and Coleman, A and Coltharp, P and Cords, D and Corvisiero, P and Crabb, D and Crannell, H and Cummings,
             JP and Sanctis, ED and Vita, RD and Degtyarenko, PV and Denizli, H and Dennis, L and Deur, A and Dharmawardane, KV and Dhuga, KS and Dickson,
             R and Djalali, C and Dodge, GE and Donnelly, J and Doughty, D and Dragovitsch, P and Dytman, S and Dzyubak, OP and Egiyan, H and Egiyan,
             KS and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Fedotov,
             G and Feldman, G and Feuerbach, RJ and Ficenec, J and Forest, TA and Funsten, H and Garçon, M and Gavalian, G and Gilfoyle, GP and Giovanetti, KL and Girod, FX and Goetz, JT and Gothe, RW and Griffioen,
             KA and Guidal, M and Guillo, M and Guler, N and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Hersman,
             FW and Hicks, K and Hleiqawi, I and Holtrop, M and Hu, J and Huertas, M and Hyde-Wright, CE and Ilieva, Y and Ireland, DG and Ishkhanov, BS and Ito,
             MM and Jenkins, D and Jo, HS and Joo, K and Juengst, HG and Kalantarians,
             N and Kellie, JD and Khandaker, M and Kim, KY and Kim, K and Kim, W and Klein,
             A and Klein, FJ and Klimenko, AV and Klusman, M and Kossov, M and Krahn, Z and Kramer, LH and Kubarovsky, V and Kuhn, J and Kuhn, SE and Kuznetsov, V and Lachniet, J and Laget, JM and Langheinrich, J and Lawrence, D and Lee,
             T and Lima, ACS and Livingston, K and Lukashin, K and Manak, JJ and Marchand, C and Maximon, LC and McAleer, S and McKinnon, B and McNabb,
             JWC and Mecking, BA and Mestayer, MD and Meyer, CA and Mibe, T and Mikhailov, K and Minehart, R and Mirazita, M and Miskimen, R and Mokeev,
             V and Moriya, K and Morrow, SA and Muccifora, V and Mueller, J and Mutchler, GS and Nadel-Turonski, P and Napolitano, J and Nasseripour,
             R and Niccolai, S and Niculescu, G and Niculescu, I and Niczyporuk, BB and Niroula, M and Niyazov, RA and Nozar, M and O'Rielly, GV and Osipenko,
             M and Ostrovidov, AI and Park, K and Paterson, C and Philips, SA and Pierce, J and Pivnyuk, N and Pocanic, D and Pogorelko, O and Pozdniakov,
             S and Preedom, BM and Price, JW and Prok, Y and Protopopescu, D and Qin,
             LM and Raue, BA and Riccardi, G and Ricco, G and Ripani, M and Ronchetti,
             F and Rosner, G and Rossi, P and Rowntree, D and Rubin, PD and Sabatié, F and Slamanca, J and Salgado, C and Santoro, JP and Sapunenko, V and Schumacher, RA and Serov, VS and Shafi, A and Sharabian, YG and Shaw, J and Simionatto, S and Skabelin, AV and Smith, ES and Smith, LC and Sober,
             DI and Spraker, M and Stavinsky, A and Stepanyan, SS and Stepanyan, S and Stokes, BE and Stoler, P and Strauch, S and Taiuti, M and Taylor, S and Tedeschi, DJ and Thompson, R and Tkabladze, A and Tkachenko, S and Todor, L and Tur, C and Ungaro, M and Vineyard, MF and Vlassov, AV and Wang, K and Weinstein, LB and Weller, H and Weygand, DP and Williams, M and Wolin, E and Wood, MH and Yegneswaran, A and Yun, J and Zana, L and Zhang,
             J},
   Title = {π0photoproduction on the proton for photon energies from
             0.675 to 2.875 GeV},
   Journal = {Physical Review C},
   Volume = {76},
   Number = {2},
   Pages = {025211},
   Publisher = {American Physical Society (APS)},
   Year = {2007},
   Month = {August},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000249155600078&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Doi = {10.1103/physrevc.76.025211},
   Key = {fds248883}
}

@article{fds249043,
   Author = {Tilley, DR and Cheves, CM and Kelley, JH and Raman, S and Weller,
             HR},
   Title = {“Energy Levels of Light Nuclei, A = 20"},
   Journal = {Nucl. Phys.},
   Volume = {A636},
   Pages = {247-364},
   Year = {1998},
   Key = {fds249043}
}

@article{fds4811,
   Author = {H.R. Weller and S.J. Gaff and J.H. Kelley and R.M. Prior and M. Spraker and D.R. Tilley and E.A. Wulf},
   Title = {“New S-Factor Results from Polarized Proton Capture
             Measurements Below 100 keV,”},
   Series = {Editions Frontieres, Paris},
   Pages = {83},
   Booktitle = {Nuclei in the Cosmos V, Proceedings of the International
             Symposium on Nuclear Astrophysics},
   Editor = {N. Prantzos and S. Harrissopulos},
   Year = {1998},
   Key = {fds4811}
}

@article{fds4809,
   Author = {H.R. Weller},
   Title = {“The Physics of Radiative Capture Reactions Below 100
             keV,”},
   Booktitle = {New Perspectives on Problems in Classical and Quantum
             Physics},
   Publisher = {Gordon and Breach},
   Editor = {Delsanto and Sáenz},
   Year = {1998},
   Key = {fds4809}
}

@article{fds4808,
   Author = {A. M. Bernstein et al.},
   Title = {“Working Group on Electromagnetic Production of Goldstone
             Bosons”},
   Journal = {Lecture Notes in Physics},
   Volume = {513},
   Booktitle = {Chiral Dynamics: Theory and Experiment},
   Editor = {Springer},
   Year = {1998},
   Key = {fds4808}
}


%% Papers Accepted   
@article{fds248901,
   Author = {Sabourov, A and Ahmed, MW and Blackston, MA and Crowell, AS and Howell,
             CR and Perdue, BA and Sabourov, K and Tonchev, A and Weller, HR and Prior,
             RM and Spraker, MC},
   Title = {Astrophysical S factor for the Li7(d,n0)Be8 and Li7(d,n1)Be8
             reactions},
   Journal = {Physical Review C},
   Volume = {73},
   Number = {1},
   Publisher = {American Physical Society (APS)},
   Year = {2006},
   Month = {January},
   url = {http://aps.org},
   Abstract = {The absolute astrophysical S factor and cross section for
             the Li7(d,n0)Be8 and Li7(d,n1)Be8 reactions have been
             determined using deuteron beams with energies between 45 and
             80 keV. The slope of the S factor is consistent with zero in
             the n0 case but is slightly negative in the n1 case. The S
             factor for the sum of both neutron groups at c.m. energies
             below 70 keV is S(E)=5400(±1500)-37(±21)E keV b, where E
             is the c.m. energy in keV. © 2006 The American Physical
             Society.},
   Doi = {10.1103/PhysRevC.73.015801},
   Key = {fds248901}
}

@article{fds249016,
   Author = {Ahmed, MW and Feldman, G and Litvinenko, VN and Nelson, SO and Norum,
             BE and Perdue, B and Pinayev, IV and Sawatzky, B and Tonchev, AP and Wu, Y and Weller, HR},
   Title = {Background reduction in FEL-generated γ-ray beam
             experiments using giant high-peak power pulses},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {516},
   Number = {2-3},
   Pages = {440-444},
   Publisher = {Elsevier BV},
   Year = {2004},
   Month = {January},
   ISSN = {0168-9002},
   url = {http://www.sciencedirect.com},
   Abstract = {A new method to eliminate beam-uncorrelated background in
             photonuclear experiments has been developed at the High
             Intensity Gamma-Ray Source (HIγS). Background suppression
             of over 3 orders-of-magnitude has been achieved by using a
             gain modulation technique to generate giant high-peak power
             (GHPP) pulses in the OK-4/ Duke storage ring FEL. The time
             structure of these laser pulses was tuned so that their
             duration was ∼100 μs, repeated every 50 ms. The
             associated FEL photons were backscattered from 780 MeV
             electrons to produce linearly polarized 40 MeV γ-rays
             having the same time structure as the FEL pulses. As an
             initial test of the technique, a nearly background-free
             measurement of the analyzing power in the Compton scattering
             reaction 16O(γ→,γ)16O was performed. © 2003 Elsevier
             B.V. All rights reserved.},
   Doi = {10.1016/j.nima.2003.08.166},
   Key = {fds249016}
}

@article{fds248997,
   Author = {Perdue, BA and Ahmed, MW and Tonchev, AP and Weller, HR and Feldman, G and Litvinenko, VN and Pinayev, IV and Norum, BE and Prior, RM and Spraker,
             MC and Sawatzky, BD},
   Title = {Compton scattering of polarized γ rays by16O for
             E γ=25-40 MeV},
   Journal = {Physical Review C},
   Volume = {70},
   Number = {6},
   Publisher = {American Physical Society (APS)},
   Year = {2004},
   Month = {December},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000226308100014&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {Measurements of the polarization asymmetries σ(θ c.m.) and
             σ(Eγ) of Compton scattering by 16O have been performed in
             the energy range of 25-40 MeV over a range of scattering
             angles between 90 and 150°. An analysis of the present data
             combined with previous results indicates that significant,
             narrow concentrations of E2 strength are not present below
             an excitation energy of 40 MeV. The existence, however, of a
             broad isovector giant quadrupole resonance exhausting a
             large percentage of the isovector energy weighted sum rule
             is not ruled out by the combined data. Additionally, the
             present data are insensitive to modifications to the free
             values of the nucleon polarizabilities, but cannot rule them
             out.},
   Doi = {10.1103/PhysRevC.70.064305},
   Key = {fds248997}
}

@article{fds249013,
   Author = {Egiyan, KS and Dashyan, N and Sargsian, M and Stepanyan, S and Weinstein, LB and Adams, G and Ambrozewicz, P and Anciant, E and Anghinolfi, M and Asavapibhop, B and Asryan, G and Audit, G and Auger,
             T and Avakian, H and Bagdasaryan, H and Ball, JP and Barrow, S and Battaglieri, M and Beard, K and Bedlinski, I and Bektasoglu, M and Bellis, M and Benmouna, N and Bianchi, N and Biselli, AS and Boiarinov,
             S and Bonner, BE and Bouchigny, S and Bradford, R and Branford, D and Briscoe, WJ and Brooks, WK and Burkert, VD and Butuceanu, C and Calarco,
             JR and Carman, DS and Carnahan, B and Cetina, C and Ciciani, L and Cole,
             PL and Coleman, A and Cords, D and Connelly, J and Corvisiero, P and Crabb,
             D and Crannell, H and Cummings, JP and DeSanctis, E and DeVita, R and Degtyarenko, PV and Demirchyan, R and Denizli, H and Dennis, L and Dharmawardane, KV and Dhuga, KS and Djalali, C and Dodge, GE and Doughty, D and Dragovitsch, P and Dugger, M and Dytman, S and Dzyubak,
             OP and Eckhause, M and Egiyan, H and Elouadrhiri, L and Empl, A and Eugenio, P and Fatemi, R and Feuerbach, RJ and Ficenec, J and Forest,
             TA and Funsten, H and Gai, M and Gavalian, G and Gilad, S and Gilfoyle, GP and Giovanetti, KL and Girard, P and Gordon, CIO and Griffioen, K and Guidal, M and Guillo, M and Guo, L and Gyurjyan, V and Hadjidakis, C and Hakobyan, RS and Hardie, J and Heddle, D and Heimberg, P and Hersman,
             FW and Hicks, K and Hicks, RS and Holtrop, M and Hu, J and Hyde-Wright,
             CE},
   Title = {Observation of nuclear scaling in the [Formula Presented]
             reaction at [Formula Presented]},
   Journal = {Physical Review C},
   Volume = {68},
   Number = {1},
   Publisher = {American Physical Society (APS)},
   Year = {2003},
   Month = {January},
   ISSN = {0556-2813},
   url = {http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000184616100019&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=47d3190e77e5a3a53558812f597b0b92},
   Abstract = {The ratios of inclusive electron scattering cross sections
             of [Formula Presented] [Formula Presented] and [Formula
             Presented] to [Formula Presented] have been measured for the
             first time. It is shown that these ratios are independent of
             [Formula Presented] at [Formula Presented] for [Formula
             Presented] where the inclusive cross section depends
             primarily on the high momentum components of the nuclear
             wave function. The observed scaling shows that the momentum
             distributions at high-momenta have the same shape for all
             nuclei and differ only by a scale factor. The observed onset
             of the scaling at [Formula Presented] and [Formula
             Presented] is consistent with the kinematical expectation
             that two-nucleon short range correlations (SRC) dominate the
             nuclear wave function at [Formula Presented] The values of
             these ratios in the scaling region can be related to the
             relative probabilities of SRC in nuclei with [Formula
             Presented] Our data, combined with calculations and other
             measurements of the [Formula Presented] ratio, demonstrate
             that for nuclei with [Formula Presented] these probabilities
             are 4.9–5.9 times larger than in deuterium, while for
             [Formula Presented] it is larger by a factor of about 3.8.
             © 2003 The American Physical Society.},
   Doi = {10.1103/PhysRevC.68.014313},
   Key = {fds249013}
}

@article{fds248893,
   Author = {Gai, M and Breskin, A and Chechik, R and Dangendorf, V and Weller,
             HR},
   Title = {Optical Readout Time Projection Chamber (O-TPC) for a Study
             of Oxygen Formation in Stellar Helium Burning},
   Journal = {Acta Physica Hungarica A) Heavy Ion Physics},
   Volume = {25},
   Number = {2-4},
   Pages = {461-468},
   Publisher = {Springer Nature},
   Year = {2006},
   Month = {April},
   url = {http://dx.doi.org/10.1556/aph.25.2006.2-4.37},
   Doi = {10.1556/aph.25.2006.2-4.37},
   Key = {fds248893}
}

@article{fds249014,
   Author = {Biselli, A and Weller, TCLASCIHR},
   Title = {Study of the Delta(1232) using Single and double
             Polarization Asymmetries},
   Journal = {Physical Review C},
   Publisher = {American Physical Society},
   Year = {2003},
   url = {http://aps.org/},
   Key = {fds249014}
}