Publications of Hugh Robinson    :chronological  alphabetical  combined listing:

%% Papers Published   
@article{ISI:A19668362600088,
   Author = {ROBINSON, HG and WHITE, CW and HAYNE, GS},
   Title = {DETERMINATION OF GI/GJ RATIOS IN FREE RUBIDIUM AND CAESIUM
             ATOMS},
   Journal = {Science},
   Volume = {154},
   Number = {3747},
   Pages = {427-\&},
   Publisher = {{AMER ASSOC ADVANCEMENT SCIENCE}},
   Address = {{1200 NEW YORK AVE, NW, WASHINGTON, DC 20005}},
   Year = {2013},
   Month = {January},
   ISSN = {0036-8075},
   Key = {ISI:A19668362600088}
}

@article{ISI:A1978EZ22300025,
   Author = {JOHNSON, CE and TIPTON, CA and ROBINSON, HG},
   Title = {PENNING IONIZATION OF NA, K, RB, AND CS BY HE(251-3) IN A
             STATIONARY AFTERGLOW},
   Journal = {Journal of Physics B: Atomic, Molecular and Optical
             Physics},
   Volume = {11},
   Number = {5},
   Pages = {927-933},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{JOHNSON, CE (Reprint Author), N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27607. DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Institution = {{JOHNSON, CE (Reprint Author), N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27607. DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND BS1
             6BE}},
   Year = {2013},
   Month = {January},
   ISSN = {0953-4075},
   Key = {ISI:A1978EZ22300025}
}

@article{ISI:000238507100005,
   Author = {Knappe, S and Schwindt, PDD and Gerginov, V and Shah, V and Liew, L and Moreland, J and Robinson, HG and Hollberg, L and Kitching,
             J},
   Title = {Microfabricated atomic clocks and magnetometers},
   Journal = {Journal of Optics A: Pure and Applied Optics},
   Volume = {8},
   Number = {7, Sp. Iss. SI},
   Pages = {S318-S322},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{Knappe, S (Reprint Author), Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80305 USA. Natl Inst Stand \&
             Technol, Div Time \& Frequency, Boulder, CO 80305 USA. Univ
             Colorado, Dept Phys, Boulder, CO 80309 USA. Univ Notre Dame,
             Dept Phys, N},
   Institution = {{Knappe, S (Reprint Author), Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80305 USA. Natl Inst Stand \&
             Technol, Div Time \& Frequency, Boulder, CO 80305 USA. Univ
             Colorado, Dept Phys, Boulder, CO 80309 USA. Univ Notre Dame,
             Dept Phys, N},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL BS1 6BE,
             ENGLAND}},
   Year = {2013},
   Month = {January},
   ISSN = {1464-4258},
   Keywords = {{atomic clocks; atomic magnetometers; high-resolution
             spectroscopy; micro-optics}},
   Abstract = {{We demonstrate the critical subsystems of a compact atomic
             clock based on a microfabricated physics package. The clock
             components have a total volume below 10 cm(3), a fractional
             frequency instability of 6 x 10(-10)/tau(1/2), and consume
             200 mW of power. The physics package is easily adapted to
             function as a magnetometer with sensitivity below 50 pT
             Hz(-1/2) at 10 Hz.}},
   Key = {ISI:000238507100005}
}

@article{ISI:A1969E646100002,
   Author = {HUGHES, WM and ROBINSON, HG},
   Title = {DETERMINATION OF AN ISOTOPE SHIFT IN RATIO OF ATOMIC GJ
             VALUES OF HYDROGEN AND DEUTERIUM},
   Journal = {Physical Review Letters},
   Volume = {23},
   Number = {21},
   Pages = {1209-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1969E646100002}
}

@article{ISI:A1960WQ68000003,
   Author = {HUGHES, VW and ROBINSON, HG and BELTRANLOPEZ, V},
   Title = {UPPER LIMIT FOR THE ANISOTROPY OF INERTIAL MASS FROM NUCLEAR
             RESONANCE EXPERIMENTS},
   Journal = {Physical Review Letters},
   Volume = {4},
   Number = {7},
   Pages = {342-344},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1960WQ68000003}
}

@article{ISI:A1981MM42900002,
   Author = {HALL, JL and HOLLBERG, L and BAER, T and ROBINSON,
             HG},
   Title = {OPTICAL HETERODYNE SATURATION SPECTROSCOPY},
   Journal = {Applied Physics Letters},
   Volume = {39},
   Number = {9},
   Pages = {680-682},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{HALL, JL (Reprint Author), NBS,JOINT INST LAB ASTROPHYS,DIV
             QUANTUM PHYS,BOULDER,CO 80309. UNIV COLORADO,BOULDER,CO
             80309.}},
   Institution = {{HALL, JL (Reprint Author), NBS,JOINT INST LAB ASTROPHYS,DIV
             QUANTUM PHYS,BOULDER,CO 80309. UNIV COLORADO,BOULDER,CO
             80309.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-6951},
   Key = {ISI:A1981MM42900002}
}

@article{ISI:A1970F262600001,
   Author = {CRAMPTON, SB and BERG, HC and ROBINSON, HG and RAMSEY,
             NF},
   Title = {DETERMINATION OF QUADRUPOLE COUPLING CONSTANT IN N14 ATOMIC
             GROUND STATE},
   Journal = {Physical Review Letters},
   Volume = {24},
   Number = {5},
   Pages = {195-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1970F262600001}
}

@article{ISI:A1977DS90300006,
   Author = {TIEDEMAN, JS and ROBINSON, HG},
   Title = {DETERMINATION OF GJ(H-1,1S-21/2)-GS(E) - TEST OF
             MASS-INDEPENDENT CORRECTIONS},
   Journal = {Physical Review Letters},
   Volume = {39},
   Number = {10},
   Pages = {602-604},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{DUKE UNIV,DEPT PHYS,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DEPT PHYS,DURHAM,NC 27706.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1977DS90300006}
}

@article{ISI:A1996UL24700014,
   Author = {Zibrov, AS and Lukin, MD and Hollberg, L and Nikonov, DE and Scully, MO and Robinson, HG and Velichansky, VL},
   Title = {Experimental demonstration of enhanced index of refraction
             via quantum coherence in Rb},
   Journal = {Physical Review Letters},
   Volume = {76},
   Number = {21},
   Pages = {3935-3938},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{Zibrov, AS (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. HOUSTON ADV RES CTR,TEXAS LASER
             LAB,THE WOODLANDS,TX 77381. MAX PLANCK INST QUANTUM
             OPT,D-85748 GARCHING,GERMANY. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. PN LEBEDEV PHYS
             IN},
   Institution = {{Zibrov, AS (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. HOUSTON ADV RES CTR,TEXAS LASER
             LAB,THE WOODLANDS,TX 77381. MAX PLANCK INST QUANTUM
             OPT,D-85748 GARCHING,GERMANY. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. PN LEBEDEV PHYS
             IN},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Abstract = {{We present a proof-of-principle experiment demonstrating a
             resonant enhancement of the index of refraction accompanied
             by vanishing absorption in a cell containing a coherently
             prepared Rb vapor. The results are in good agreement with
             detailed theoretical predictions.}},
   Key = {ISI:A1996UL24700014}
}

@article{ISI:A1977DE56800024,
   Author = {WATANABE, SF and ROBINSON, HG},
   Title = {MOTIONAL NARROWING OF ZEEMAN RESONANCE LINESHAPES .5.
             EXPERIMENTAL RESULTS},
   Journal = {Journal of Physics B: Atomic, Molecular and Optical
             Physics},
   Volume = {10},
   Number = {6},
   Pages = {1167-1174},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND BS1
             6BE}},
   Year = {2013},
   Month = {January},
   ISSN = {0953-4075},
   Key = {ISI:A1977DE56800024}
}

@article{ISI:000089372500007,
   Author = {Vukicevic, N and Zibrov, AS and Hollberg, L and Walls, FL and Kitching,
             J and Robinson, HG},
   Title = {Compact diode-laser based rubidium frequency
             reference},
   Journal = {IEEE Transactions on Ultrasonics, Ferroelectrics and
             Frequency Control},
   Volume = {47},
   Number = {5},
   Pages = {1122-1126},
   Publisher = {{IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS
             INC}},
   Organization = {{Vukicevic, N (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, M-S 847-10,325 Broadway, Boulder, CO
             80303 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80303 USA.}},
   Institution = {{Vukicevic, N (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, M-S 847-10,325 Broadway, Boulder, CO
             80303 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80303 USA.}},
   Address = {{345 E 47TH ST, NEW YORK, NY 10017-2394 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0885-3010},
   Abstract = {{The performance of a simple microwave frequency reference
             based on Raman scattering in an atomic vapor is examined.
             This reference has the potential to be compact, low-power,
             and insensitive to acceleration. Several design
             architectures have been evaluated with a tabletop experiment
             in order to guide the future development of a compact
             system. Fractional frequency deviations of less than or
             equal to 5 X 10(-11) appear to be feasible.}},
   Key = {ISI:000089372500007}
}

@article{ISI:A1970H431200063,
   Author = {WATANABE, SF and HAYNE, GS and ROBINSON, HG},
   Title = {LINESHAPE ASYMMETRY AND FREQUENCY SHIFT IN A MOTIONALLY
             NARROWED ZEEMAN RESONANCE},
   Journal = {Physics Letters A},
   Volume = {A 32},
   Number = {7},
   Pages = {546-\&},
   Publisher = {{ELSEVIER SCIENCE BV}},
   Address = {{PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS}},
   Year = {2013},
   Month = {January},
   ISSN = {0375-9601},
   Key = {ISI:A1970H431200063}
}

@article{ISI:A1979HU16700117,
   Author = {KEYSER, PT and ROBINSON, HG and JOHNSON, CE},
   Title = {ATTAINING LOW-DENSITY PLASMA IN HE-4},
   Journal = {Bulletin- American Physical Society},
   Volume = {24},
   Number = {9},
   Pages = {1186},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706. NYU,NEW YORK,NY
             10003.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706. NYU,NEW YORK,NY
             10003.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1979HU16700117}
}

@article{ISI:A1969C927000237,
   Author = {STAFFA, NG and ROBINSON, HG},
   Title = {MAGNETIC FIELD CORRECTION COILS THROUGH SIXTH
             ORDER},
   Journal = {Bulletin- American Physical Society},
   Volume = {14},
   Number = {4},
   Pages = {524-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1969C927000237}
}

@article{ISI:A1982NM85300006,
   Author = {ROBINSON, HG and JOHNSON, CE},
   Title = {NARROW RB-87 HYPERFINE-STRUCTURE RESONANCES IN AN EVACUATED
             WALL-COATED CELL},
   Journal = {Applied Physics Letters},
   Volume = {40},
   Number = {9},
   Pages = {771-773},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{ROBINSON, HG (Reprint Author), DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706. N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27650.}},
   Institution = {{ROBINSON, HG (Reprint Author), DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706. N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27650.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-6951},
   Key = {ISI:A1982NM85300006}
}

@article{ISI:A1983QP14700043,
   Author = {ROBINSON, HG and JOHNSON, CE},
   Title = {A NEW HEART FOR RB FREQUENCY STANDARDS - THE EVACUATED,
             WALL-COATED SEALED CELL},
   Journal = {IEEE Transactions on Instrumentation and
             Measurement},
   Volume = {32},
   Number = {1},
   Pages = {198},
   Publisher = {{IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS
             INC}},
   Organization = {{ROBINSON, HG (Reprint Author), DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706. N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27650.}},
   Institution = {{ROBINSON, HG (Reprint Author), DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706. N CAROLINA STATE UNIV,DEPT
             PHYS,RALEIGH,NC 27650.}},
   Address = {{345 E 47TH ST, NEW YORK, NY 10017-2394}},
   Year = {2013},
   Month = {January},
   ISSN = {0018-9456},
   Key = {ISI:A1983QP14700043}
}

@article{ISI:A1973P380300044,
   Author = {WHITE, CW and HUGHES, WM and HAYNE, GS and ROBINSON,
             HG},
   Title = {DETERMINATION OF G-FACTOR RATIOS FOR FREE CS-133 AND RB-87
             ATOMS},
   Journal = {Physical Review A - Atomic, Molecular, and Optical
             Physics},
   Volume = {7},
   Number = {3},
   Pages = {1178-1182},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {1050-2947},
   Key = {ISI:A1973P380300044}
}

@article{ISI:A1955WB71300032,
   Author = {ROBINSON, HG},
   Title = {QUADRUPOLE SPECTRUM OF BICL3},
   Journal = {Physical Review},
   Volume = {100},
   Number = {6},
   Pages = {1731-1734},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1955WB71300032}
}

@article{ISI:A1989AB45000004,
   Author = {ROBINSON, HG and HOOKE, WM and LEWIS, HW and FELDER, KC and CLEGG,
             TB},
   Title = {RF CAVITY DESIGN AND PERFORMANCE FOR THE TUNL POLARIZED
             ION-SOURCE},
   Journal = {Nuclear Instruments and Methods in Physics Research Section
             A: Accelerators, Spectrometers, Detectors and Associated
             Equipment},
   Volume = {278},
   Number = {3},
   Pages = {655-659},
   Publisher = {{ELSEVIER SCIENCE BV}},
   Organization = {{ROBINSON, HG (Reprint Author), TRIANGLE UNIV NUCL
             LAB,DURHAM,NC 27706. DUKE UNIV,DURHAM,NC 27706. UNIV N
             CAROLINA,CHAPEL HILL,NC 27599.}},
   Institution = {{ROBINSON, HG (Reprint Author), TRIANGLE UNIV NUCL
             LAB,DURHAM,NC 27706. DUKE UNIV,DURHAM,NC 27706. UNIV N
             CAROLINA,CHAPEL HILL,NC 27599.}},
   Address = {{PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS}},
   Year = {2013},
   Month = {January},
   ISSN = {0168-9002},
   Key = {ISI:A1989AB45000004}
}

@article{ISI:000172089800001,
   Author = {Knappe, S and Wynands, R and Kitching, J and Robinson, HG and Hollberg,
             L},
   Title = {Characterization of coherent population-trapping resonances
             as atomic frequency references},
   Journal = {Journal of the Optical Society of America
             B},
   Volume = {18},
   Number = {11},
   Pages = {1545-1553},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{Knappe, S (Reprint Author), Univ Bonn, Inst Angew Phys,
             Wegelerstr 8, D-53115 Bonn, Germany. Univ Bonn, Inst Angew
             Phys, D-53115 Bonn, Germany. Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80303 USA.}},
   Institution = {{Knappe, S (Reprint Author), Univ Bonn, Inst Angew Phys,
             Wegelerstr 8, D-53115 Bonn, Germany. Univ Bonn, Inst Angew
             Phys, D-53115 Bonn, Germany. Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80303 USA.}},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0740-3224},
   Abstract = {{A low-cost, potentially compact and robust microwave
             frequency reference can be constructed by use of
             vertical-cavity surface-emitting lasers and coherent
             population-trapping resonances in Cs vapor cells. Fractional
             frequency instabilities of 2 x 10(-11)/root tau /s have been
             achieved with a minimum of 7 x 10(-13) at tau = 1000s. The
             performance of this device as a function of external
             parameters such as light intensity, optical detuning, and
             cell temperature is discussed. The dependence of the
             dark-line resonance signal on these parameters can be
             understood largely by means of a simple, three-level model.
             The short-term stability depends critically on the optical
             detuning, whereas the long-term stability is limited
             currently by line shifts due to drifts in cell
             temperature.}},
   Key = {ISI:000172089800001}
}

@article{ISI:A1975AC68900020,
   Author = {ROBINSON, HG},
   Title = {PRECISE GJ-FACTOR RATIOS FROM OPTICAL-PUMPING
             EXPERIMENTS},
   Journal = {Bulletin- American Physical Society},
   Volume = {20},
   Number = {6},
   Pages = {808-809},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC.}},
   Institution = {{DUKE UNIV,DURHAM,NC.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1975AC68900020}
}

@article{ISI:A1969C927000235,
   Author = {HUGHES, WM and ROBINSON, HG},
   Title = {PRECISION DETERMINATION OF GJ(RB87)/GJ(H)},
   Journal = {Bulletin- American Physical Society},
   Volume = {14},
   Number = {4},
   Pages = {524-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1969C927000235}
}

@article{ISI:A1953UB45300046,
   Author = {ROBINSON, HG and DEHMELT, HG and GORDY, W},
   Title = {PURE NUCLEAR QUADRUPOLE SPECTRUM OF BI-209 IN
             BISMUTH-TRIPHENYL},
   Journal = {Physical Review},
   Volume = {89},
   Number = {6},
   Pages = {1305},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1953UB45300046}
}

@article{ISI:A1980KE58700011,
   Author = {JOHNSON, CE and ROBINSON, HG},
   Title = {GJ FACTOR OF AN ION - DETERMINATION OF GJ (HE-(+)4
             12S1/2)-GJ(HE-4,23S1)},
   Journal = {Physical Review Letters},
   Volume = {45},
   Number = {4},
   Pages = {250-252},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{JOHNSON, CE (Reprint Author), N CAROLINA STATE
             UNIV,RALEIGH,NC 27607. DUKE UNIV,DURHAM,NC
             27706.}},
   Institution = {{JOHNSON, CE (Reprint Author), N CAROLINA STATE
             UNIV,RALEIGH,NC 27607. DUKE UNIV,DURHAM,NC
             27706.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1980KE58700011}
}

@article{ISI:000183124100031,
   Author = {Knappe, S and Velichansky, V and Robinson, HG and Kitching, J and Hollberg, L},
   Title = {Compact atomic vapor cells fabricated by laser-induced
             heating of hollow-core glass fibers},
   Journal = {Review of Scientific Instruments},
   Volume = {74},
   Number = {6},
   Pages = {3142-3145},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, MS 847-10,325 Broadway, Boulder, CO
             80305 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80305 USA. PN Lebedev Phys Inst, Lab
             Frequency Stand, Moscow 11},
   Institution = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, MS 847-10,325 Broadway, Boulder, CO
             80305 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80305 USA. PN Lebedev Phys Inst, Lab
             Frequency Stand, Moscow 11},
   Address = {{CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE,
             STE 1 N O 1, MELVILLE, NY 11747-4501 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0034-6748},
   Abstract = {{A method for fabricating atomic vapor cells with physical
             dimensions of order 1 mm(3) or below is described. Cells
             with integrated lenses are made from hollow-core glass
             fiber, and fused shut at either end using highly localized
             heating from a CO2 laser beam. Such cells, subsequently
             loaded with alkali atoms and a buffer gas, could form the
             basis for future generations of compact frequency references
             or magnetometers. (C) 2003 American Institute of
             Physics.}},
   Key = {ISI:000183124100031}
}

@article{ISI:A1997YB66400010,
   Author = {Lukin, MD and Fleischhauer, M and Zibrov, AS and Robinson, HG and Velichansky, VL and Hollberg, L and Scully, MO},
   Title = {Spectroscopy in dense coherent media: Line narrowing and
             interference effects},
   Journal = {Physical Review Letters},
   Volume = {79},
   Number = {16},
   Pages = {2959-2962},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{Lukin, MD (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. UNIV MUNICH,SEKT PHYS,D-80333
             MUNICH,GERMANY. MAX PLANCK INST QUANTUM OPT,D-85748
             GARCHING,GERMANY. PN LEBEDEV PHYS INST,MOSCOW
             11792},
   Institution = {{Lukin, MD (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. UNIV MUNICH,SEKT PHYS,D-80333
             MUNICH,GERMANY. MAX PLANCK INST QUANTUM OPT,D-85748
             GARCHING,GERMANY. PN LEBEDEV PHYS INST,MOSCOW
             11792},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Abstract = {{Spectroscopic properties of coherently prepared, optically
             dense atomic media are studied experimentally and analyzed
             theoretically. It is shown that in such media the power
             broadening of the resonances can be substantially reduced. A
             density-dependent spectral narrowing of the
             electromagnetically induced transparency (EIT) window and
             novel, even narrower, resonances superimposed on the EIT
             line are observed in dense Rb vapor. A nonlinear two-photon
             spectroscopic technique based on coherent atomic media and
             combining high resolution with a large signal-to-noise ratio
             seems feasible.}},
   Key = {ISI:A1997YB66400010}
}

@article{ISI:A1954UB47400028,
   Author = {DEHMELT, HG and ROBINSON, HG and GORDY, W},
   Title = {NUCLEAR QUADRUPOLE RESONANCE OF HG-201},
   Journal = {Physical Review},
   Volume = {93},
   Number = {3},
   Pages = {480-482},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1954UB47400028}
}

@article{ISI:A1974U538000559,
   Author = {KEISER, GM and ROBINSON, HG and JOHNSON, CE},
   Title = {GJ(HE-4, 23S1)/GJ(RB-87) PRELIMINARY RESULT},
   Journal = {Bulletin- American Physical Society},
   Volume = {19},
   Number = {10},
   Pages = {1176},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC. N CAROLINA STATE UNIV,GREENSBORO,NC.}},
   Institution = {{DUKE UNIV,DURHAM,NC. N CAROLINA STATE UNIV,GREENSBORO,NC.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1974U538000559}
}

@article{ISI:A19667185000012,
   Author = {CRAMPTON, SB and ROBINSON, HG and KLEPPNER, D and RAMSEY,
             NF},
   Title = {HYPERFINE SEPARATION OF DEUTERIUM},
   Journal = {Physical Review},
   Volume = {141},
   Number = {1},
   Pages = {55-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A19667185000012}
}

@article{ISI:A1970F920000522,
   Author = {TIEDEMAN, JS and ROBINSON, HG},
   Title = {MAGNETIC FIELD STABILIZATION BY PHASE-LOCKED-OSCILLATING
             MAGNETOMETER},
   Journal = {Bulletin- American Physical Society},
   Volume = {15},
   Number = {4},
   Pages = {561-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1970F920000522}
}

@article{ISI:000258174800048,
   Author = {Yi, YW and Robinson, HG and Knappe, S and Maclennan, JE and Jones, CD and Zhu, C and Clark, NA and Kitching, J},
   Title = {Method for characterizing self-assembled monolayers as
             antirelaxation wall coatings for alkali vapor
             cells},
   Journal = {Journal of Applied Physics},
   Volume = {104},
   Number = {2},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80305 USA. {[}Robinson,
             H. G.; Knappe, S.; Kitching, J.] Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80305 USA. {[}Yi, Y. W.;
             Maclennan, J. E.},
   Institution = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80305 USA. {[}Robinson,
             H. G.; Knappe, S.; Kitching, J.] Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80305 USA. {[}Yi, Y. W.;
             Maclennan, J. E.},
   Address = {{CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE,
             STE 1 N O 1, MELVILLE, NY 11747-4501 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0021-8979},
   Abstract = {{We describe a method for characterizing self-assembled
             monolayers (SAMs) in terms of their performance as
             antirelaxation wall coatings for alkali atom vapor cells. A
             combination of initial surface analysis and subsequent laser
             spectroscopy is used to provide insight into the quality of
             the coating, as well as its performance under the exposure
             to alkalis as it occurs, for example, when used in
             applications such as atomic magnetometers or clocks. Fused
             silica plates coated with octadecyltrichlorosilane SAMs were
             used to make cubic Rb-87 gas cells. The surface was
             characterized by x-ray diffraction, contact angle
             measurements, and atomic force microscopy. Measurements of
             hyperfine resonance linewidths and frequency shifts show
             that the rubidium vapor atoms collide up to 40 times with
             the walls of the cells before their coherence relaxes and
             their adsorption energy is around 0.065 eV. Chemical
             analysis of the cell indicates some weak reactions between
             the coating and the rubidium atoms. (C) 2008 American
             Institute of Physics.}},
   Key = {ISI:000258174800048}
}

@article{ISI:A1968B455300005,
   Author = {HAYNE, GS and ENSBERG, ES and ROBINSON, HG},
   Title = {MEASUREMENTS OF GJ RATIOS FOR RB85 RB87 HYDROGEN AND
             DEUTERIUM AND OF HYPERFINE SEPARATION OF
             DEUTERIUM},
   Journal = {Physical Review},
   Volume = {171},
   Number = {1},
   Pages = {20-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1968B455300005}
}

@article{ISI:A1977DD19200030,
   Author = {WATANABE, SF and HAYNE, GS and ROBINSON, HG},
   Title = {MOTIONAL NARROWING OF ZEEMAN RESONANCE LINESHAPES .2.
             MONTE-CARLO SIMULATION RESULTS},
   Journal = {Journal of Physics B: Atomic, Molecular and Optical
             Physics},
   Volume = {10},
   Number = {5},
   Pages = {941-957},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND BS1
             6BE}},
   Year = {2013},
   Month = {January},
   ISSN = {0953-4075},
   Key = {ISI:A1977DD19200030}
}

@article{ISI:A1973P314601211,
   Author = {CHENEY, P and ROBINSON, HG},
   Title = {PRECISION DETERMINATION OF GJ(N)-GJ(RB)},
   Journal = {Bulletin- American Physical Society},
   Volume = {18},
   Number = {4},
   Pages = {727},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC.}},
   Institution = {{DUKE UNIV,DURHAM,NC.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1973P314601211}
}

@article{ISI:000231964600001,
   Author = {Knappe, S and Gerginov, V and Schwindt, PDD and Shah, V and Robinson,
             HG and Hollberg, L and Kitching, J},
   Title = {Atomic vapor cells for chip-scale atomic clocks with
             improved long-term frequency stability},
   Journal = {Optics Letters},
   Volume = {30},
   Number = {18},
   Pages = {2351-2353},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{Knappe, S (Reprint Author), Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80305 USA. Natl Inst Stand \&
             Technol, Div Time \& Frequency, Boulder, CO 80305 USA. Univ
             Colorado, Dept Phys, Boulder, CO 80309 USA. Univ Notre Dame,
             Notre Dame,},
   Institution = {{Knappe, S (Reprint Author), Natl Inst Stand \& Technol, Div
             Time \& Frequency, Boulder, CO 80305 USA. Natl Inst Stand \&
             Technol, Div Time \& Frequency, Boulder, CO 80305 USA. Univ
             Colorado, Dept Phys, Boulder, CO 80309 USA. Univ Notre Dame,
             Notre Dame,},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0146-9592},
   Abstract = {{A novel technique for microfabricating alkali atom vapor
             cells is described in which alkali atoms are evaporated into
             a micromachined cell cavity through a glass nozzle. A cell
             of interior volume 1 mm(3), containing Rb-87 and a buffer
             gas, was made in this way and integrated into an atomic
             clock based on coherent population trapping. A fractional
             frequency instability of 6 x 10(-12) at 1000 s of
             integration was measured. The long-term drift of the F = 1,
             m(F) = 0 -> F = 2, m(F) = 0 hyperfine frequency of atoms in
             these cells is below 5 x 10(-11)/day.}},
   Key = {ISI:000231964600001}
}

@article{ISI:A1981NM13600009,
   Author = {HALL, J and HOLLBERG, L and MA, L and BAER, T and ROBINSON,
             H},
   Title = {PROGRESS TOWARD PHASE-STABLE OPTICAL FREQUENCY
             STANDARDS},
   Journal = {Journal de Physique},
   Volume = {42},
   Number = {NC8},
   Pages = {59-71},
   Publisher = {{EDITIONS PHYSIQUE}},
   Organization = {{HALL, JL (Reprint Author), UNIV COLORADO,NBS,JOINT INST LAB
             ASTROPHYS,DIV QUANTUM PHYS,BOULDER,CO 80302.}},
   Institution = {{HALL, JL (Reprint Author), UNIV COLORADO,NBS,JOINT INST LAB
             ASTROPHYS,DIV QUANTUM PHYS,BOULDER,CO 80302.}},
   Address = {{Z I DE COURTABOEUF AVE 7 AV DU HOGGAR, BP 112, 91944 LES
             ULIS CEDEX, FRANCE}},
   Year = {2013},
   Month = {January},
   ISSN = {0302-0738},
   Key = {ISI:A1981NM13600009}
}

@article{ISI:A1978ET45300860,
   Author = {JOHNSON, CE and ROBINSON, HG},
   Title = {GJ(HE-4+,12S1/2)/GJ (HE-4,23S1) PRELIMINARY
             RESULT},
   Journal = {Bulletin- American Physical Society},
   Volume = {23},
   Number = {4},
   Pages = {621},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1978ET45300860}
}

@article{ISI:A1975AU66500014,
   Author = {KEISER, GM and ROBINSON, HG and JOHNSON, CE},
   Title = {DETERMINATION OF GJ(HE-4, 2S-3(1)-GJ(H-1,1S-2(1-2) -
             RESOLUTION OF A DISCREPANCY},
   Journal = {Physical Review Letters},
   Volume = {35},
   Number = {18},
   Pages = {1223-1225},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706. N CAROLINA STATE UNIV,RALEIGH,NC
             27607.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706. N CAROLINA STATE UNIV,RALEIGH,NC
             27607.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A1975AU66500014}
}

@article{ISI:A1970F920000523,
   Author = {WATANABE, SF and HAYNE, GS and ROBINSON, HG},
   Title = {LINESHAPE ASYMMETRY AND FREQUENCY SHIFT FOR MOTIONALLY
             NARROWED ZEEMAN RESONANCES},
   Journal = {Bulletin- American Physical Society},
   Volume = {15},
   Number = {4},
   Pages = {561-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1970F920000523}
}

@article{ISI:A1956WH48600013,
   Author = {ROBINSON, HG},
   Title = {BOLOMETER DETECTION OF NUCLEAR QUADRUPOLE
             RESONANCE},
   Journal = {Review of Scientific Instruments},
   Volume = {27},
   Number = {3},
   Pages = {163-164},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0034-6748},
   Key = {ISI:A1956WH48600013}
}

@article{ISI:A1979HU16700118,
   Author = {ROBINSON, HG and BERG, RF and JOHNSON, CE},
   Title = {GJ(HE-4,23S1)-GJ(H-1) IN A LOW-DENSITY PLASMA},
   Journal = {Bulletin- American Physical Society},
   Volume = {24},
   Number = {9},
   Pages = {1186},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{NYU,NEW YORK,NY 10003. DUKE UNIV,DURHAM,NC
             27706.}},
   Institution = {{NYU,NEW YORK,NY 10003. DUKE UNIV,DURHAM,NC
             27706.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1979HU16700118}
}

@article{ISI:A1996UV06700004,
   Author = {Lukin, MD and Scully, MO and Welch, GR and Fry, ES and Hollberg, L and Padmabandu, GG and Robinson, HG and Zibrov, AS},
   Title = {Lasing without inversion: The road to new short-wavelength
             losers},
   Journal = {Laser Physics},
   Volume = {6},
   Number = {3},
   Pages = {436-447},
   Publisher = {{INTERPERIODICA}},
   Organization = {{Lukin, MD (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843.}},
   Institution = {{Lukin, MD (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843.}},
   Address = {{PO BOX 1831, BIRMINGHAM, AL 35201-1831}},
   Year = {2013},
   Month = {January},
   ISSN = {1054-660X},
   Abstract = {{Lasing Without Inversion (LWI) is a novel technique in
             laser physics which holds the promise of a solution to one
             of the most fundamental problems in short-wavelength laser
             research. Making use of quantum coherence and interference
             effects, this technique allows lasing even if only a small
             fraction of population is in the excited state, i.e., even
             if the population of the active medium is not inverted. The
             intense theoretical work on the subject has been verified by
             several experiments which confirmed that LWI is indeed
             possible. The efforts of researchers are presently directed
             to demonstrate LWI in the UV and X-ray spectral
             regions.}},
   Key = {ISI:A1996UV06700004}
}

@article{ISI:A1996UY47500007,
   Author = {Marquardt, JH and Robinson, HG and Hollberg, L},
   Title = {Line shapes of cascade two-photon transitions in a cesium
             magneto-optic trap},
   Journal = {Journal of the Optical Society of America
             B},
   Volume = {13},
   Number = {7},
   Pages = {1384-1393},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{Marquardt, JH (Reprint Author), NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303.}},
   Institution = {{Marquardt, JH (Reprint Author), NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303.}},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC
             20036}},
   Year = {2013},
   Month = {January},
   ISSN = {0740-3224},
   Abstract = {{We present a study of a two-photon double-resonance
             transition in cold cesium atoms in a magneto-optic trap. A
             closed five-level density matrix model of the system is
             developed to characterize the double-resonance
             Autler-Townes-split absorption line shape. Comparing this
             model with experimental spectra, we gain insight into the
             dominant process involved in trapping atoms, in particular,
             the importance of the interference of the six trapping laser
             beams. This system is used to probe transient effects in the
             trap as well as collective effects of the trapped atom cloud
             resulting from the intentional misalignment of the trapping
             beams.}},
   Key = {ISI:A1996UY47500007}
}

@article{ISI:A1972N819700876,
   Author = {WATANABE, SF and ROBINSON, HG},
   Title = {FREQUENCY-SHIFT ESTIMATES FOR MOTIONALLY NARROWED ZEEMAN
             RESONANCES},
   Journal = {Bulletin- American Physical Society},
   Volume = {17},
   Number = {11},
   Pages = {1127-1128},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC.}},
   Institution = {{DUKE UNIV,DURHAM,NC.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1972N819700876}
}

@article{ISI:000168233200083,
   Author = {Heavner, TP and Hollberg, L and Jefferts, SR and Kitching, J and Klipstein, WM and Meekhof, DM and Robinson, HG},
   Title = {Characterization of a cold cesium source for PARCS: Primary
             atomic reference clock in space},
   Journal = {IEEE Transactions on Instrumentation and
             Measurement},
   Volume = {50},
   Number = {2},
   Pages = {500-502},
   Publisher = {{IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS
             INC}},
   Organization = {{Heavner, TP (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80303 USA. Natl Inst
             Stand \& Technol, Div Time \& Frequency, Boulder, CO 80303
             USA. CALTECH, Jet Prop Lab, Pasadena, CA 91109
             USA.}},
   Institution = {{Heavner, TP (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, Boulder, CO 80303 USA. Natl Inst
             Stand \& Technol, Div Time \& Frequency, Boulder, CO 80303
             USA. CALTECH, Jet Prop Lab, Pasadena, CA 91109
             USA.}},
   Address = {{345 E 47TH ST, NEW YORK, NY 10017-2394 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0018-9456},
   Abstract = {{The Primary Atomic Reference Clock in Space (PARCS) project
             is a joint NIST-JPL-University of Colorado venture aimed at
             placing a Cs atomic clock aboard the International Space
             Station (ISS). This orbiting clock will achieve high
             accuracy, in part due to the long Ramsey times afforded by
             the microgravity environment, and allow for precision tests
             of fundamental physics including relativity theory. As pare
             of this effort, we are evaluating the characteristics of a
             prototype cold Cs source based on launching atoms from an
             optical molasses, Experimental results, in conjunction with
             theoretical modeling of atom flux requirements, will be
             applied to the design and construction of a robust,
             space-qualified device. The apparatus described here will be
             used to develop other PARCS components such as the microwave
             cavity structure and detection systems, and to investigate
             two-dimensional cooling schemes for future Cs fountains and
             space clocks.}},
   Key = {ISI:000168233200083}
}

@article{ISI:A1995RP99300017,
   Author = {ZIBROV, AS and LUKIN, MD and NIKONOV, DE and HOLLBERG, L and SCULLY, MO and VELICHANSKY, VL and ROBINSON, HG},
   Title = {EXPERIMENTAL DEMONSTRATION OF LASER OSCILLATION WITHOUT
             POPULATION-INVERSION VIA QUANTUM INTERFERENCE IN
             RB},
   Journal = {Physical Review Letters},
   Volume = {75},
   Number = {8},
   Pages = {1499-1502},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{ZIBROV, AS (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. HOUSTON ADV RES CTR,TEXAS LASER
             LAB,THE WOODLANDS,TX 77381. MAX PLANCK INST QUANTUM
             OPT,D-85748 GARCHING,GERMANY. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. PN LEBEDEV PHYS
             IN},
   Institution = {{ZIBROV, AS (Reprint Author), TEXAS A\&M UNIV,DEPT
             PHYS,COLLEGE STN,TX 77843. HOUSTON ADV RES CTR,TEXAS LASER
             LAB,THE WOODLANDS,TX 77381. MAX PLANCK INST QUANTUM
             OPT,D-85748 GARCHING,GERMANY. NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. PN LEBEDEV PHYS
             IN},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Abstract = {{Laser oscillation without population inversion is
             demonstrated experimentally in a V-type atomic configuration
             within the D-1 and D-2 lines of Rb vapor. It is shown that
             the effect is due to the atomic interference. The
             experimental results, as first predicted by careful
             theoretical analysis, are in a good agreement with detailed
             calculations.}},
   Key = {ISI:A1995RP99300017}
}

@article{ISI:A1977DY10300002,
   Author = {KEISER, GM and ROBINSON, HG and JOHNSON, CE},
   Title = {EXPERIMENTAL-DETERMINATION OF GJ(HE-4,2S-3(1))-GJ(H-1,1S-2(1/2)},
   Journal = {Physical Review A - Atomic, Molecular, and Optical
             Physics},
   Volume = {16},
   Number = {3},
   Pages = {822-835},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{DUKE UNIV,DEPT PHYS,DURHAM,NC 27706. N CAROLINA STATE
             UNIV,DEPT PHYS,RALEIGH,NC 27607.}},
   Institution = {{DUKE UNIV,DEPT PHYS,DURHAM,NC 27706. N CAROLINA STATE
             UNIV,DEPT PHYS,RALEIGH,NC 27607.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {1050-2947},
   Key = {ISI:A1977DY10300002}
}

@article{ISI:A19611450C00006,
   Author = {BELTR, V and ROBINSON, HG},
   Title = {MICROWAVE ZEEMAN SPECTRUM OF ATOMIC CHLORINE},
   Journal = {Physical Review},
   Volume = {123},
   Number = {1},
   Pages = {161-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE,
             STE 1 N O 1, MELVILLE, NY 11747-4501 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A19611450C00006}
}

@article{ISI:A1977DD19200029,
   Author = {WATANABE, SF and ROBINSON, HG},
   Title = {MOTIONAL NARROWING OF ZEEMAN RESONANCE LINESHAPES .1.
             THEORETICAL DEVELOPMENT},
   Journal = {Journal of Physics B: Atomic, Molecular and Optical
             Physics},
   Volume = {10},
   Number = {5},
   Pages = {931-939},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND BS1
             6BE}},
   Year = {2013},
   Month = {January},
   ISSN = {0953-4075},
   Key = {ISI:A1977DD19200029}
}

@article{ISI:A1969C927000236,
   Author = {WATANABE, SF and HAYNE, GS and ROBINSON, HG},
   Title = {LINE-SHAPE AND CORRELATION-TIME CALCULATIONS FOR MOTIONALLY
             NARROWED ATOMIC ZEEMAN RESONANCES},
   Journal = {Bulletin- American Physical Society},
   Volume = {14},
   Number = {4},
   Pages = {524-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1969C927000236}
}

@article{ISI:A1969E427000108,
   Author = {HUGHES, WM and ROBINSON, HG},
   Title = {PRECISION DETERMINATION OF GJ(RB87)/GJ(D)},
   Journal = {Bulletin- American Physical Society},
   Volume = {14},
   Number = {10},
   Pages = {953-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1969E427000108}
}

@article{ISI:A19645175A00004,
   Author = {ROBINSON, HG and MYINT, T},
   Title = {3HE NUCLEAR ZEEMAN MASER ( HIGH RESOLUTION NMR SPECTROSCOPY
             E/T )},
   Journal = {Applied Physics Letters},
   Volume = {5},
   Number = {6},
   Pages = {116-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-6951},
   Key = {ISI:A19645175A00004}
}

@article{ISI:A1975V691000003,
   Author = {KEISER, GM and ROBINSON, HG and JOHNSON, CE},
   Title = {POLARIZATION OF HE-4 (2S-3(1)) BY OPTICALLY PUMPED
             RB},
   Journal = {Physics Letters A},
   Volume = {A 51},
   Number = {1},
   Pages = {5-6},
   Publisher = {{ELSEVIER SCIENCE BV}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706. N CAROLINA STATE UNIV,RALEIGH,NC
             27607.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706. N CAROLINA STATE UNIV,RALEIGH,NC
             27607.}},
   Address = {{PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS}},
   Year = {2013},
   Month = {January},
   ISSN = {0375-9601},
   Key = {ISI:A1975V691000003}
}

@article{ISI:A1970H626601032,
   Author = {STAFFA, NG and ROBINSON, HG},
   Title = {CALCULATION OF NON-EQUILIBRIUM SPIN EXCHANGE DETECTION AT
             ARBITRARY APPLIED MAGNETIC FIELD},
   Journal = {Bulletin- American Physical Society},
   Volume = {15},
   Number = {11},
   Pages = {1509-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1970H626601032}
}

@article{ISI:A1968A788500033,
   Author = {HANYE, GS and WHITE, CW and HUGHES, WM and ROBINSON,
             HG},
   Title = {DETERMINATION OF GI/GJ OF CS133 AND GJ(CS133)-GJ(RB87) FOR
             FREE CS AND RB ATOMS},
   Journal = {Bulletin- American Physical Society},
   Volume = {13},
   Number = {1},
   Pages = {20-\&},
   Publisher = {{AMER INST PHYSICS}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1968A788500033}
}

@article{ISI:A1977DD19200031,
   Author = {WATANABE, SF and ROBINSON, HG},
   Title = {MOTIONAL NARROWING OF ZEEMAN RESONANCE LINESHAPES .3.
             LINESHAPE IN ABSENCE OF MOTION},
   Journal = {Journal of Physics B: Atomic, Molecular and Optical
             Physics},
   Volume = {10},
   Number = {5},
   Pages = {959-965},
   Publisher = {{IOP PUBLISHING LTD}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND BS1
             6BE}},
   Year = {2013},
   Month = {January},
   ISSN = {0953-4075},
   Key = {ISI:A1977DD19200031}
}

@article{ISI:A1954UB47500117,
   Author = {DEHMELT, HG and ROBINSON, HG and GORDY, W},
   Title = {NUCLEAR QUADRUPOLE RESONANCE OF HG-201},
   Journal = {Physical Review},
   Volume = {93},
   Number = {4},
   Pages = {920},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1954UB47500117}
}

@article{ISI:A1989AQ87800018,
   Author = {CAMPARO, JC and FRUEHOLZ, RP and ROBINSON, HG},
   Title = {DICKE NARROWING IN STRONG FIELDS - THE ATOM-AS-ANTENNA
             ANALOGY},
   Journal = {Physical Review A - Atomic, Molecular, and Optical
             Physics},
   Volume = {40},
   Number = {5},
   Pages = {2351-2358},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Organization = {{CAMPARO, JC (Reprint Author), AEROSPACE CORP,CHEM \& PHYS
             LAB,POB 92957,LOS ANGELES,CA 90009. DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706.}},
   Institution = {{CAMPARO, JC (Reprint Author), AEROSPACE CORP,CHEM \& PHYS
             LAB,POB 92957,LOS ANGELES,CA 90009. DUKE UNIV,DEPT
             PHYS,DURHAM,NC 27706.}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {1050-2947},
   Key = {ISI:A1989AQ87800018}
}

@article{ISI:A1993LU85100025,
   Author = {FOX, RW and GILBERT, SL and HOLLBERG, L and MARQUARDT, JH and ROBINSON,
             HG},
   Title = {OPTICAL PROBING OF COLD TRAPPED ATOMS},
   Journal = {Optics Letters},
   Volume = {18},
   Number = {17},
   Pages = {1456-1458},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{FOX, RW (Reprint Author), NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Institution = {{FOX, RW (Reprint Author), NATL INST STAND \&
             TECHNOL,BOULDER,CO 80303. DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC
             20036}},
   Year = {2013},
   Month = {January},
   ISSN = {0146-9592},
   Abstract = {{Transitions between excited states of laser-cooled and
             laser-trapped rubidium and cesium atoms are probed by use of
             fiber and diode lasers. High-resolution Doppler-free spectra
             are detected by observation of the absorption and
             fluorescence of light from the intermediate level of
             two-step cascade systems. The optical double-resonance
             spectra show Autler-Townes splitting in the weak probe limit
             and more complicated spectra for a strongly coupled
             three-level system.}},
   Key = {ISI:A1993LU85100025}
}

@article{ISI:000172089800017,
   Author = {Kitching, J and Robinson, HG and Hollberg, L and Knappe, S and Wynands,
             R},
   Title = {Optical-pumping noise in laser-pumped, all-optical microwave
             frequency references},
   Journal = {Journal of the Optical Society of America
             B},
   Volume = {18},
   Number = {11},
   Pages = {1676-1683},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, MS 847-10,325 Broadway, Boulder, CO
             80303 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80303 USA. Univ Bonn, Inst Angew
             Phys, D-53115 Bonn, Germany.}},
   Institution = {{Kitching, J (Reprint Author), Natl Inst Stand \& Technol,
             Div Time \& Frequency, MS 847-10,325 Broadway, Boulder, CO
             80303 USA. Natl Inst Stand \& Technol, Div Time \&
             Frequency, Boulder, CO 80303 USA. Univ Bonn, Inst Angew
             Phys, D-53115 Bonn, Germany.}},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0740-3224},
   Abstract = {{We demonstrate that optical pumping plays a significant
             role in determining the noise in certain types of
             laser-pumped vapor-cell microwave frequency standards by
             changing the way in which the laser's FM noise is converted
             to AM noise by the optical-absorption profile. When this
             FM-AM conversion is the dominant noise source, the noise
             spectrum of the transmitted intensity can be dramatically
             altered by the optical-pumping process. FM noise at Fourier
             frequencies larger than the optical-pumping time is
             converted to AM noise differently from noise at lower
             Fourier frequencies. This effect can modify the optimum
             design of vapor-cell frequency references and adds an
             additional FM-AM-related noise source that cannot be
             eliminated with laser tuning. (C) 2001 Optical Society of
             America.}},
   Key = {ISI:000172089800017}
}

@article{ISI:A1979HU16700054,
   Author = {JOHNSON, CE and ROBINSON, HG},
   Title = {PENNING IONIZATION OF RB AND CS BY NE(3P2)},
   Journal = {Bulletin- American Physical Society},
   Volume = {24},
   Number = {9},
   Pages = {1177},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{N CAROLINA STATE UNIV,RALEIGH,NC 27650. DUKE UNIV,DURHAM,NC
             27706.}},
   Institution = {{N CAROLINA STATE UNIV,RALEIGH,NC 27650. DUKE UNIV,DURHAM,NC
             27706.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1979HU16700054}
}

@article{ISI:000246474300042,
   Author = {Knappe, SA and Robinson, HG and Hollberg, L},
   Title = {Microfabricated saturated absorption laser
             spectrometer},
   Journal = {Optics express},
   Volume = {15},
   Number = {10},
   Pages = {6293-6299},
   Publisher = {{OPTICAL SOC AMER}},
   Organization = {{Knappe, SA (Reprint Author), NIST, Div Time \& Frequency,
             Boulder, CO 80305 USA. NIST, Div Time \& Frequency, Boulder,
             CO 80305 USA.}},
   Institution = {{Knappe, SA (Reprint Author), NIST, Div Time \& Frequency,
             Boulder, CO 80305 USA. NIST, Div Time \& Frequency, Boulder,
             CO 80305 USA.}},
   Address = {{2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {1094-4087},
   Abstract = {{We demonstrate a miniature microfabricated saturated
             absorption laser spectrometer. The system consists of
             miniature optics, a microfabricated Rb vapor cell, heaters,
             and a photodetector, all contained within a volume of 0.1
             cm(3). Saturated absorption spectra were measured with a
             diode laser at 795 nm. They are comparable to signals
             obtained with standard table-top setups, although the
             rubidium vapor cell has an interior volume of only 1 mm(3).
             We discuss the performance and prospects for using such
             systems as a miniature optical wavelength reference,
             compatible with transportable instruments. (C) 2007 Optical
             Society of America.}},
   Key = {ISI:000246474300042}
}

@article{ISI:000172727900004,
   Author = {Hollberg, L and Oates, CW and Curtis, EA and Ivanov, EN and Diddams, SA and Udem, T and Robinson, HG and Bergquist, JC and Rafac, RJ and Itano, WM and Drullinger, RE and Wineland, DJ},
   Title = {Optical frequency standards and measurements},
   Journal = {IEEE Journal of Quantum Electronics},
   Volume = {37},
   Number = {12},
   Pages = {1502-1513},
   Publisher = {{IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS
             INC}},
   Organization = {{Hollberg, L (Reprint Author), Natl Inst Stand \& Technol,
             Boulder, CO 80305 USA. Natl Inst Stand \& Technol, Boulder,
             CO 80305 USA. Univ Colorado, Dept Phys, Boulder, CO 80309
             USA. Univ Western Australia, Nedlands, WA 6907, Australia.
             Max Planck Inst Qua},
   Institution = {{Hollberg, L (Reprint Author), Natl Inst Stand \& Technol,
             Boulder, CO 80305 USA. Natl Inst Stand \& Technol, Boulder,
             CO 80305 USA. Univ Colorado, Dept Phys, Boulder, CO 80309
             USA. Univ Western Australia, Nedlands, WA 6907, Australia.
             Max Planck Inst Qua},
   Address = {{345 E 47TH ST, NEW YORK, NY 10017-2394 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0018-9197},
   Abstract = {{We describe the performance characteristics and frequency
             measurements of two high-accuracy high-stability
             laser-cooled atomic frequency standards. One is a 657-nm
             (456-THz) reference using magneto-optically trapped Ca
             atoms, and the other is a 282-mn (1064-TRz) reference based
             on a single Hg+ ion confined in an RF-Paul trap. A
             femtosecond mode-locked laser combined with a nonlinear
             microstructure fiber produces a broad and stable comb of
             optical modes that is used to measure the frequencies of the
             reference lasers locked to the atomic standards. The
             measurement system is referenced to the primary frequency
             standard NIST F-1, a Cs atomic fountain clock. Both optical
             standards demonstrate exceptional short-term instability
             (approximate to5 x 10(-15) at 1 s), as well as excellent
             reproducibility over time. In light of our expectations for
             the future of optical frequency standards, we consider the
             present performance of the femtosecond optical frequency
             comb, along with its limitations and future
             requirements.}},
   Key = {ISI:000172727900004}
}

@article{ISI:A1968B918700003,
   Author = {WHITE, CW and HUGHES, WM and HAYNE, GS and ROBINSON,
             HG},
   Title = {DETERMINATION OF G-FACTOR RATIOS FOR FREE RB85 AND RB87
             ATOMS},
   Journal = {Physical Review},
   Volume = {174},
   Number = {1},
   Pages = {23-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-899X},
   Key = {ISI:A1968B918700003}
}

@article{ISI:A1975AU56400266,
   Author = {KEISER, GM and ROBINSON, HG and JOHNSON, CE},
   Title = {NEW DETERMINATION OF GJ HE-4, 2S-3(1)/GJ(1H,1S-21/2)},
   Journal = {Bulletin- American Physical Society},
   Volume = {20},
   Number = {11},
   Pages = {1465},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC. N CAROLINA STATE UNIV,RALEIGH,NC.}},
   Institution = {{DUKE UNIV,DURHAM,NC. N CAROLINA STATE UNIV,RALEIGH,NC.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1975AU56400266}
}

@article{ISI:000071726400021,
   Author = {Holander Gleixner and S and Robinson, HG and Helms,
             CR},
   Title = {Derivation of an analytical model to calculate junction
             depth in HgCdTe photodiodes},
   Journal = {Journal of Applied Physics},
   Volume = {83},
   Number = {3},
   Pages = {1299-1304},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{Holander-Gleixner, S (Reprint Author), Stanford Univ, Dept
             Mat Sci \& Engn, Stanford, CA 94305 USA. Stanford Univ, Dept
             Mat Sci \& Engn, Stanford, CA 94305 USA. Stanford Univ, Dept
             Elect Engn, Stanford, CA 94305 USA.}},
   Institution = {{Holander-Gleixner, S (Reprint Author), Stanford Univ, Dept
             Mat Sci \& Engn, Stanford, CA 94305 USA. Stanford Univ, Dept
             Mat Sci \& Engn, Stanford, CA 94305 USA. Stanford Univ, Dept
             Elect Engn, Stanford, CA 94305 USA.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999 USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0021-8979},
   Abstract = {{An enhanced analytical model is derived to calculate the
             junction depth and Hg interstitial profile during n-on-p
             junction formation in vacancy-doped HgCdTe. The enhanced
             model expands on a simpler model by accounting for the Hg
             interstitials in the p-type, vacancy-rich region. The model
             calculates junction depth during both the initial?
             reaction-limited regime of junction formation and the
             diffusion-limited regime. It also calculates junction depth
             under conditions when the abrupt junction approximation of
             the simpler model fails. The enhanced model can be used to
             determine the limits of the annealing conditions and times
             for which the junction depth calculated analytically is
             valid. The decay length of interstitials into the p-type
             region estimated analytically places an upper bound on the
             grid spacing needed to accurately resolve the junction in a
             numerical simulation. (C) 1998 American Institute of
             Physics. {[}S0021-8979(98)03403-3].}},
   Key = {ISI:000071726400021}
}

@article{ISI:A1987G685800015,
   Author = {RAHMAN, C and ROBINSON, HG},
   Title = {RB O-O HYPERFINE TRANSITION IN EVACUATED WALL-COATED CELL AT
             MELTING TEMPERATURE},
   Journal = {IEEE Journal of Quantum Electronics},
   Volume = {23},
   Number = {4},
   Pages = {452-454},
   Publisher = {{IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS
             INC}},
   Organization = {{RAHMAN, C (Reprint Author), DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Institution = {{RAHMAN, C (Reprint Author), DUKE UNIV,DEPT PHYS,DURHAM,NC
             27706.}},
   Address = {{345 E 47TH ST, NEW YORK, NY 10017-2394}},
   Year = {2013},
   Month = {January},
   ISSN = {0018-9197},
   Key = {ISI:A1987G685800015}
}

@article{ISI:A19668095600022,
   Author = {MYINT, T and KLEPPNER, D and RAMSEY, NF and ROBINSON,
             HG},
   Title = {ABSOLUTE VALUE OF PROTON G FACTOR},
   Journal = {Physical Review Letters},
   Volume = {17},
   Number = {7},
   Pages = {405-\&},
   Publisher = {{AMERICAN PHYSICAL SOC}},
   Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844
             USA}},
   Year = {2013},
   Month = {January},
   ISSN = {0031-9007},
   Key = {ISI:A19668095600022}
}

@article{ISI:A1973R106900260,
   Author = {TIEDEMAN, JS and ROBINSON, HG},
   Title = {GJ(H)/GS(E-) DETERMINATION USING TRITIUM
             CELLS},
   Journal = {Bulletin- American Physical Society},
   Volume = {18},
   Number = {11},
   Pages = {1517},
   Publisher = {{AMER INST PHYSICS}},
   Organization = {{DUKE UNIV,DURHAM,NC 27706.}},
   Institution = {{DUKE UNIV,DURHAM,NC 27706.}},
   Address = {{CIRCULATION FULFILLMENT DIV, 500 SUNNYSIDE BLVD, WOODBURY,
             NY 11797-2999}},
   Year = {2013},
   Month = {January},
   ISSN = {0003-0503},
   Key = {ISI:A1973R106900260}
}

@article{fds326088,
   Author = {Monroe, C and Swann, W and Robinson, H and Wieman,
             C},
   Title = {Very cold trapped atoms in a vapor cell},
   Pages = {294-297},
   Booktitle = {Collected Papers of Carl Wieman},
   Year = {2008},
   Month = {January},
   ISBN = {9789812813787},
   url = {http://dx.doi.org/10.1142/9789812813787_0038},
   Abstract = {© 2008 by World Scientific Publishing Co. Pte. Ltd. All
             rights reserved. We have produced a very cold sample of
             spin-polarired trapprd atoms. The technique used
             dramatically simplifies the production of laser-cooled
             atoms. In this experiment. 1.8 ⨯ 10 7 neutral cesium atoms
             were optically captured directly from a low-pressure vapor
             in ii small glass cell. We then cooled the < 1-mm 3 cloud of
             trapped atoms and loaded i t into a lowfield magnetic trap
             in the same cell. The magnetically trapped atoms had an
             effective temperature as low as 1.1 ± 0.2 μK, which is the
             lowest kinetic temperature ever observed and far colder than
             any previous sample of trapped atoms.},
   Doi = {10.1142/9789812813787_0038},
   Key = {fds326088}
}

@article{fds326089,
   Author = {MONROE, C and ROBINSON, H and WIEMAN, C},
   Title = {OBSERVATION OF THE CESIUM CLOCK TRANSITION USING
             LASER-COOLED ATOMS IN A VAPOR CELL},
   Journal = {Optics Letters},
   Volume = {16},
   Number = {1},
   Pages = {50-52},
   Year = {1991},
   Month = {January},
   url = {http://dx.doi.org/10.1364/OL.16.000050},
   Doi = {10.1364/OL.16.000050},
   Key = {fds326089}
}

@article{fds326090,
   Author = {Monroe, C and Swann, W and Robinson, H and Wieman,
             C},
   Title = {Very cold trapped atoms in a vapor cell},
   Journal = {Physical Review Letters},
   Volume = {65},
   Number = {13},
   Pages = {1571-1574},
   Year = {1990},
   Month = {September},
   url = {http://dx.doi.org/10.1103/PhysRevLett.65.1571},
   Doi = {10.1103/PhysRevLett.65.1571},
   Key = {fds326090}
}

@article{fds326091,
   Author = {Rahman, C and Robinson, HG},
   Title = {Rb O-O Hyperfine Transition in Evacuated Wall-Coated Cell at
             Melting Temperature},
   Journal = {IEEE Journal of Quantum Electronics},
   Volume = {23},
   Number = {4},
   Pages = {452-454},
   Year = {1987},
   Month = {January},
   url = {http://dx.doi.org/10.1109/JQE.1987.1073365},
   Abstract = {Using an evacuated wall-coated cell, a high-resolution
             measurement was made of the behavior of the Rb87 O-O
             hyperfine transition frequeney near the melting temperature
             of the coaling. Several features attributed to phase changes
             in the coating were evident. Notable were a phase transition
             from a super-cooled state and three regions of zero or small
             temperature coefficient of hyperflne frequency. The
             hyperfine resonance persists above the melting point of the
             coating. Data were analyzed in terms of an adsorption model
             for the Rb-wall interaction. The 10 Hz FWHM intrinsic
             hyperfiiie line width provided evidence for a high-quality
             wall coating. Copyright © 1987 by The Institute of
             Electrical and Electronics Engineers, Inc.},
   Doi = {10.1109/JQE.1987.1073365},
   Key = {fds326091}
}

@article{fds326092,
   Author = {Robinson, HG and Johnson, CE},
   Title = {MEASURED g//J-FACTOR RATIO OF **4He** plus (1 **2S//
             one-half ) AND **4He(2 **3S//1).},
   Journal = {National Bureau of Standards, Special Publication},
   Pages = {229-231},
   Year = {1984},
   Month = {December},
   Abstract = {The results of a measurement of the ratio of g-factors of
             He** plus , and **4He are discussed. This permits a first
             precision determination of the g-factor of a simple atomic
             ion. It provides the potential for examination of the
             Z-dependence of the theory.},
   Key = {fds326092}
}

@article{fds326093,
   Author = {Keiser, GM and Robinson, HG and Johnson, CE},
   Title = {An experimental determination of gJ(He4, 2S13)gJ(H1,
             1S122)},
   Journal = {Physical Review A - Atomic, Molecular, and Optical
             Physics},
   Volume = {16},
   Number = {3},
   Pages = {822-835},
   Year = {1977},
   Month = {January},
   url = {http://dx.doi.org/10.1103/PhysRevA.16.822},
   Abstract = {The ratio of the gJ factor of He4(2S13) to that of
             Rb87(5S122) has been measured to a fractional accuracy of
             5×10-8. The Rb atoms were optically pumped, and the
             He4(2S13) Zeeman resonance was observed through a
             combination of spin-exchange collisions and spin-dependent
             Penning ionization. Linewidths as narrow as 220 Hz were
             observed for the He4(2S13) Zeeman resonance. The accuracy of
             this experiment was limited by a systematic shift in the He
             gJ factor that depended upon the intensity of the discharge
             used to excite the He atoms to the 2S13 state. Calculations
             indicate that transfer of coherence in spin-exchange
             collisions with free electrons contributes to this shift.
             The measured ratio gJ(He4, 2S13)gJ(Rb87,
             5S122)=1-46.798(50)×10-6. Using the previously measured
             ratio of the gJ factors of the ground state of rubidium to
             the ground state of hydrogen, we determine the ratio gJ(He4,
             2S13)gJ(H1, 1S122)=1-23.214(50)×10-6. This result agrees
             with recent theoretical calculations and experimental
             determinations using atomic-beam techniques, but disagrees
             with an earlier experimental determination using
             optical-pumping techniques. © 1977 The American Physical
             Society.},
   Doi = {10.1103/PhysRevA.16.822},
   Key = {fds326093}
}

@article{fds326094,
   Author = {Keiser, GM and Robinson, HG and Johnson, CE},
   Title = {Polarization of 4He(23S1) by optically pumped
             Rb},
   Journal = {Physics Letters A},
   Volume = {51},
   Number = {1},
   Pages = {5-6},
   Year = {1975},
   Month = {January},
   url = {http://dx.doi.org/10.1016/0375-9601(75)90292-3},
   Abstract = {The Zeeman resonance in He(2 3 S 1 ) has been observed with
             narrow linewidth, ∼350 Hz, using a technique involving
             spin-dependent Penning collisions with optically pumped Rb.
             This linewidth is 100 times narrower than previously
             reported in determination of g J ( 4 He, 2 3 S 1 ). ©
             1975.},
   Doi = {10.1016/0375-9601(75)90292-3},
   Key = {fds326094}
}

@article{fds326095,
   Author = {Watanabe, SF and Hayne, GS and Robinson, HG},
   Title = {Lineshape asymmetry and frequency shift in a motionally
             narrowed Zeeman resonance},
   Journal = {Physics Letters A},
   Volume = {32},
   Number = {7},
   Pages = {546-547},
   Year = {1970},
   Month = {September},
   url = {http://dx.doi.org/10.1016/0375-9601(70)90501-3},
   Abstract = {A frequency shift non-linear with g-factor is found for a
             motionally narrowed Zeeman resonance in a spherical cell.
             Using single Legendre polynomial gradients, low-order even
             terms cause the worst shift, with line assymetry remaining
             small. © 1970.},
   Doi = {10.1016/0375-9601(70)90501-3},
   Key = {fds326095}
}

@article{fds326096,
   Author = {Robinson, H and Dehmelt, HG and Gordy, W},
   Title = {Nuclear quadrupole couplings in solid bromides and
             iodides},
   Journal = {Journal of Chemical Physics},
   Volume = {22},
   Number = {3},
   Pages = {511-515},
   Year = {1954},
   Month = {December},
   Abstract = {From measurements of pure nuclear quadrupole transitions at
             77°K the following coupling constants (in Mc/sec) and
             asymmetry parameters have been obtained: for I 127 |eQq|
             =1765.846, ε 2 =0.00078 in CH 3 I; |eQq| =1897.368, ε 2 =
             0.00736 in CH 2 I 2 ; |eQq| = 2046.634, ε 2 =0.00033 in CHI
             3 ·3S 8 ; |eQq| = 2130.33 for CI 4 ; |eQq| =2069.17 for CF
             3 I; |eQq| = 1324.788 and 1333.313, ε 2 =0.000082 and
             ≤0.000010 for the two nonequivalent I's in unit cell of
             SiI 4 ; |eQq\ = 1484.339 and 1500.577, ε 2 = 0.000087 and
             ≤0.000005 for the two nonequivalent I's in unit cell of
             GeI 4 ; |eQq| = 1384.424 and 1394.190, ε 2 =0.000085 and
             ≤0.000016 for the two nonequivalent I's in unit cell of
             SnI 4 ; |eQq| =1517.07, ε 2 =0.00008 in AsI 3 ·3S 8 ;
             |eQq| = 1226.35, ε 2 = 0.00101 in SbI 3 ·3S 8 . The
             coupling values of Br are: |eQq(Br 79 )| = 437.27 and
             441.15; |eQq(Br 81 )| = 365.272 and 368.514 for the two
             nonequivalent Br's in unit cell of PBr 3 (T=87±4°K) ;
             |eQq(Br 79 )| = 329.000 and 345.920; |eQq(Br 81 )| = 274.856
             and 288.980 for the two nonequivalent Br's in unit cell of
             SbBr 3 . From these coupling values the number of unbalanced
             p electrons in the atoms was calculated. The latter quantity
             was found to be closely related to chemical bond properties
             such as ionic character, and was found to vary
             systematically with chemical constitution. A cross bonding
             mechanism involving d orbitals is proposed to account for
             the iodine coupling in certain solids.},
   Key = {fds326096}
}