Publications of Shailesh Chandrasekharan    :chronological  alphabetical  by type  bibtex listing:

search www.slac.stanford.edu.
Books
  1. S. Chandrasekharan and U.-J. Wiese,, AN INTRODUCTION TO CHIRAL SYMMETRY ON THE LATTICE, in Prog. Part. Nucl. Phys. Vol. 53, issue 1, (2004) .
  2. S. Chandrasekharan, NOVEL QUANTUM MONTE CARLO ALGORITHMS FOR FERMIONS, in Quantum Monte Carlo: Recent Advances and Common Problems in Condensed Matter Physics and Field Theory, edited by M. Compostrini, M.P. Lomardo and F. Paderiva (2001), EDIZIONI ETS [abs] .
  3. S. Chandrasekharan, SOLVING SIGN PROBLEMS WITH MERON ALGORITHMS, in Computer Simulations in Condensed Matter Physics XIII, Springer Proc. Phys. 86, pp 28-42, edited by D.P. Landau, S.P.Lewis and H.-B.Shuttler (January, 2000), Springer .
  4. Chandrasekharan, S., CRITICAL BEHAVIOR AT THE QCD PHASE TRANSITION WITH TWO MASSLESS QUARK FLAVORS, in Continuous Advances in QCD, edited by Smilga, A.V. (1994), World Scientific .
  5. S. Chandrasekharan, CRITICAL BEHAVIOR AT THE QCD PHASE TRANSITION WITH TWO MASSLESS QUARK FLAVORS, in Continuous Advances in QCD, edited by Andrei V. Smilga (1994), World Scientific .
Papers Published
  1. Hann, CT; Huffman, E; Chandrasekharan, S, Solution to the sign problem in a frustrated quantum impurity model, Annals of Physics, vol. 376 (January, 2017), pp. 63-75 [doi] .
  2. Huffman, E; Chandrasekharan, S, Solution to sign problems in models of interacting fermions and quantum spins., Physical review. E, vol. 94 no. 4-1 (October, 2016), pp. 043311 [abs] .
  3. Ayyar, V; Chandrasekharan, S, Fermion masses through four-fermion condensates, The Journal of High Energy Physics, vol. 2016 no. 10 (October, 2016) [doi] .
  4. Huffman, E; Banerjee, D; Chandrasekharan, S; Wiese, U-J, Real-time evolution of strongly coupled fermions driven by dissipation, Annals of Physics, vol. 372 (September, 2016), pp. 309-319 [doi] .
  5. Ayyar, V; Chandrasekharan, S, Origin of fermion masses without spontaneous symmetry breaking, Physical Review D, vol. 93 no. 8 (April, 2016) [doi] .
  6. Chandrasekharan, S, Fermion bags, topology and index theorems, PoS - Proceedings of Science, vol. Part F128557 (January, 2016) [abs] .
  7. Ayyar, V; Chandrasekharan, S, Massive fermions without fermion bilinear condensates, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 91 no. 6 (March, 2015) [doi] .
  8. Zou, H; Liu, Y; Lai, C-Y; Unmuth-Yockey, J; Yang, L-P; Bazavov, A; Xie, ZY; Xiang, T; Chandrasekharan, S; Tsai, S-W; Meurice, Y, Progress towards quantum simulating the classical model, Physical Review A - Atomic, Molecular, and Optical Physics, vol. 90 no. 6 (December, 2014) [doi] .
  9. Huffman, E; Chandrasekharan, S, Solution to new sign problems with Hamiltonian Lattice Fermions, PoS (LATTICE 2014) 058 (November, 2014) [1411.7147v2] [abs] .
  10. E.F. Huffman and S. Chandrasekharan, Solution to sign problems in half-filled spin-polarized electronic systems, Phys. Rev. (Rapid Communications), vol. B89 (February, 2014), pp. 111101(arXiv:1311.0034.) [PhysRevB.89.111101], [doi] [abs] .
  11. Huffman, EF; Chandrasekharan, S, Solution to sign problems in half-filled spin-polarized electronic systems, Phys. Rev. B, vol. 89 (October, 2013), pp. 111101 [1311.0034v1], [doi] [abs] .
  12. Chandrasekharan, S; Li, A, Quantum critical behavior in three dimensional lattice Gross-Neveu models, vol. 88 (April, 2013), pp. 021701 [1304.7761v1], [doi] [abs] .
  13. Chandrasekharan, S, Fermion Bag Approach to Fermion Sign Problems, vol. 49 (April, 2013), pp. 90 [1304.4900v1], [doi] [abs] .
  14. Chandrasekharan, S, Quantum critical behavior with massless staggered fermions in three dimensions, PoS - Proceedings of Science, vol. 29-July-2013 (January, 2013), pp. 049 [conf.cgi] [abs] .
  15. Chandrasekharan Shailesh, , Fermion Bag Solutions to Sign Problems, Proceedings of Science, vol. Lattice2012 (December, 2012), pp. 224 .
  16. Chandrasekharan, S; Li, A, Fermion bags, duality, and the three dimensional massless lattice thirring model., Physical Review Letters, vol. 108 no. 14 (April, 2012), pp. 140404, American Physical Society [22540775], [doi] [abs] .
  17. Chandrasekharan, S; Li, A, Fermion bag solutions to some sign problems in four-fermion field theories, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 85 no. 9 (2012), pp. 091502, American Physical Society [PhysRevD.85.091502], [doi] [abs] .
  18. Chandrasekharan, S, Solutions to sign problems in lattice Yukawa models, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 86 no. 2 (2012), pp. 021701, American Physical Society [PhysRevD.86.021701], [doi] [abs] .
  19. Chandrasekharan, S; Li, A, The generalized fermion-bag approach, vol. Lattice 2011 (November, 2011), pp. 058 [1111.5276v1] [abs] .
  20. Chandrasekharan, S; Wiese, U-J, Partition Functions of Strongly Correlated Electron Systems as "Fermionants" (August, 2011) [1108.2461v1] [abs] .
  21. Chandrasekharan, S; Li, A, Fermion bag approach to the sign problem in strongly coupled lattice QED with Wilson fermions, Journal of High Energy Physics, vol. 2011 no. 1 (2011) [available here], [doi] [abs] .
  22. Liu, DE; Chandrasekharan, S; Baranger, HU, Quantum phase transition and emergent symmetry in a quadruple quantum dot system., Physical Review Letters, vol. 105 no. 25 (December, 2010), pp. 256801 [21231607], [doi] [abs] .
  23. Chandrasekharan, S; Li, A, Anomaly and a QCD-like phase diagram with massive bosonic baryons, Journal of High Energy Physics, vol. 2010 no. 12 (2010) [available here], [doi] [abs] .
  24. Liu, DE; Chandrasekharan, S; Baranger, HU, Conductance of quantum impurity models from quantum monte carlo, Physical Review B - Condensed Matter and Materials Physics, vol. 82 no. 16 (2010), pp. 165447 [repository], [doi] [abs] .
  25. Chandrasekharan, S, Fermion bag approach to lattice field theories, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 82 no. 2 (2010), pp. 025007 [repository], [doi] [abs] .
  26. Banerjee, D; Chandrasekharan, S, Finite size effects in the presence of a chemical potential: A study in the classical nonlinear O(2) sigma model, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 81 no. 12 (2010), pp. 125007 [repository], [doi] [abs] .
  27. D. Podolski, S. Chandrasekharan and A.Vishwanath, Phase Transitions of S=1 Spinor Condensates in an optical lattice, Physical Review B, vol. 80 (2009), pp. 214513 [e214513] [abs] .
  28. Podolsky, D; Chandrasekharan, S; Vishwanath, A, Phase transitions of S=1 spinor condensates in an optical lattice, Physical Review B - Condensed Matter and Materials Physics, vol. 80 no. 21 (2009) [repository], [doi] [abs] .
  29. Kaul, RK; Ullmo, D; Zaránd, G; Chandrasekharan, S; Baranger, HU, Ground state and excitations of quantum dots with magnetic impurities, Physical Review B - Condensed Matter and Materials Physics, vol. 80 no. 3 (2009), pp. 035318 [e035318], [doi] [abs] .
  30. Cecile, DJ; Chandrasekharan, S, Sigma-resonance and convergence of chiral perturbation theory, PoS LATTICE, vol. 2008 (October, 2008), pp. 071 [0810.2423v1] [abs] .
  31. Chandrasekharan, S, A new computational approach to lattice quantum field theories, PoS LATTICE, vol. 2008 (October, 2008), pp. 003 [0810.2419v1] [abs] .
  32. Jiang, F-J; Nyfeler, M; Chandrasekharan, S; Wiese, U-J, From an antiferromagnet to a valence bond solid: evidence for a first-order phase transition, Journal of statistical mechanics (Online) (February, 2008) [Gateway.cgi], [doi] .
  33. Cecile, D. J. and Chandrasekharan, Shailesh, Modeling pion physics in the $\epsilon$-regime of two- flavor QCD using strong coupling lattice QED, Phys. Rev., vol. D77 (2008), pp. 014506 [pdf] [abs] .
  34. Chandrasekharan, Shailesh, A new computational approach to lattice quantum field theories, PoS, vol. LATTICE2008 (2008), pp. 003 [pdf] [abs] .
  35. Jiang, F.-J. and Nyfeler, M. and Chandrasekharan, S. and Wiese, U. -J., From an Antiferromagnet to a Valence Bond Solid: Evidence for a First Order Phase Transition, J. of Stat. Mech, vol. P02009 (2008) .
  36. S. Chandrasekharan and F.-J. Jiang and M. Pepe and U.-J. Wiese, Rotor spectra, berry phases, and monopole fields: From antiferromagnets to QCD, Physical Review D (Particles and Fields), vol. 78 no. 7 (2008), pp. 077901, APS [e077901] .
  37. Cecile, D. J. and Chandrasekharan, Shailesh, Role of the $\sigma$-resonance in determining the convergence of chiral perturbation theory, Phys. Rev., vol. D77 (2008), pp. 091501 [pdf] [abs] .
  38. Cecile, D. J. and Chandrasekharan, Shailesh, Absence of vortex condensation in a two dimensional fermionic XY model, Phys. Rev., vol. D77 (2008), pp. 054502 [pdf] [abs] .
  39. Cecile, DJ; Chandrasekharan, S, Role of the σ resonance in determining the convergence of chiral perturbation theory, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 77 no. 9 (2008), pp. 091501 [PhysRevD.77.091501], [doi] [abs] .
  40. Chandrasekharan, S; Jiang, F-J; Pepe, M; Wiese, U-J, Rotor spectra, berry phases, and monopole fields: From antiferromagnets to QCD, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 78 no. 7 (2008), pp. 077901 [pdf], [doi] [abs] .
  41. Jiang, F-J; Nyfeler, M; Chandrasekharan, S; Wiese, U-J, From an antiferromagnet to a valence bond solid: Evidence for a first-order phase transition, Journal of statistical mechanics (Online), vol. 2008 no. 2 (2008), pp. P02009(arXiv:0710.3926.) [available here], [doi] [abs] .
  42. Cecile, DJ; Chandrasekharan, S, Absence of vortex condensation in a two dimensional fermionic XY model, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 77 no. 5 (2008), pp. 054502 [e054502], [doi] [abs] .
  43. Cecile, DJ; Chandrasekharan, S, Modeling pion physics in the -regime of two-flavor QCD using strong coupling lattice QED, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 77 no. 1 (2008), pp. 014506 [e014506], [doi] [abs] .
  44. Chandrasekharan, S; Mehta, AC, Effects of the anomaly on the two-flavor QCD chiral phase transition., Physical Review Letters, vol. 99 no. 14 (October, 2007), pp. 142004 [17930663], [doi] [abs] .
  45. Chandrasekharan, S; Mehta, AC, Effects of the anomaly on the two-flavor QCD chiral phase transition, Phys.Rev.Lett., vol. 99 (May, 2007), pp. 142004 [0705.0617v1], [doi] [abs] .
  46. Chandrasekharan, Shailesh and Mehta, Abhijit C., Effects of the anomaly on the two-flavor QCD chiral phase transition, Phys. Rev. Lett., vol. 99 (2007), pp. 142004 [pdf] [abs] .
  47. Podolsky, D; Berkeley, UC; Chandrasekharan, S; Vishwanath, A; Berkeley, UC; Berkeley, LBL, Novel transitions in S=1 spinor condensates and XY Ashkin-Teller universality, arXiv:0707.0695 [cond-mat.stat-mech] (2007) [abs] .
  48. Chandrasekharan, S, Anomalous superfluidity in (2+1)-dimensional two-color lattice QCD., Physical Review Letters, vol. 97 no. 18 (November, 2006), pp. 182001 [17155536], [doi] [abs] .
  49. Priyadarshee, A; Chandrasekharan, S; Lee, J-W; Baranger, HU, Quantum phase transitions of hard-core bosons in background potentials., Physical Review Letters, vol. 97 no. 11 (September, 2006), pp. 115703 [17025902], [doi] [abs] .
  50. Kaul, RK; Zaránd, G; Chandrasekharan, S; Ullmo, D; Baranger, HU, Spectroscopy of the Kondo problem in a box., Physical Review Letters, vol. 96 no. 17 (May, 2006), pp. 176802 [16712322], [doi] [abs] .
  51. Lee, Ji-Woo and Chandrasekharan, Shailesh and Baranger, Harold U., Disorder-Induced Superfluidity in Hardcore Bosons in Two Dimensions (2006) [pdf] [abs] .
  52. Chandrasekharan, Shailesh, Anomalous Superfluidity in $(2+1)$-Dimensional Two-Color Lattice QCD, Phys. Rev. Lett., vol. 97 no. 18 (2006), pp. 182001 .
  53. Kaul, Ribhu K. and Zar\'and, Gergely and Chandrasekharan, Shailesh and Ullmo, Denis and Baranger, Harold U., Spectroscopy of the Kondo Problem in a Box, Phys. Rev. Lett., vol. 96 no. 17 (2006), pp. 176802 .
  54. Chandrasekharan, Shailesh and Jiang, Fu-Jiun, Phase-diagram of two-color lattice QCD in the chiral limit, Phys. Rev., vol. D74 (2006), pp. 014506 [pdf] [abs] .
  55. Chandrasekharan, S, New approaches to strong coupling lattice QCD, Int. J. Mod. Phys., vol. B20 (2006), pp. 2714-2723 .
  56. Chandrasekharan, S; Jiang, F-J, Phase diagram of two-color lattice QCD in the chiral limit, Physical Review D - Particles, Fields, Gravitation, and Cosmology, vol. 74 no. 1 (2006), pp. 014506 [PhysRevD.74.014506], [doi] [abs] .
  57. Chandrasekharan, S; Jiang, F-J, Chiral limit of 2-color QCD at strong couplings, PoS LAT, vol. 2005 (September, 2005), pp. 198 [0509117v1] [abs] .
  58. Yoo, J; Chandrasekharan, S; Baranger, HU, Multilevel algorithm for quantum-impurity models., Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, vol. 71 no. 3 Pt 2B (March, 2005), pp. 036708 [15903634], [doi] [abs] .
  59. Chandrasekharan, S; Strouthos, CG, Failure of mean field theory at large N., Physical Review Letters, vol. 94 no. 6 (February, 2005), pp. 061601 [15783719], [doi] [abs] .
  60. Chandrasekharan, Shailesh and Strouthos, Costas G., Failure of mean field theory at large N, Phys. Rev. Lett., vol. 94 (2005), pp. 061601 [pdf] [abs] .
  61. Lee, J-W; Chandrasekharan, S; Baranger, HU, Quantum Monte Carlo study of disordered fermions, Physical Review B - Condensed Matter and Materials Physics, vol. 72 no. 2 (2005), pp. 024525 [doi] [abs] .
  62. Kaul, RK; Ullmo, D; Chandrasekharan, S; Baranger, HU, Mesoscopic Kondo problem, Europhysics Letters, vol. 71 no. 6 (2005), pp. 973-979 [pdf], [doi] [abs] .
  63. Yoo, J; Chandrasekharan, S; Kaul, RK; Ullmo, D; Baranger, HU, Cluster algorithms for quantum impurity models and mesoscopic Kondo physics, Physical Review B - Condensed Matter and Materials Physics, vol. 71 no. 20 (2005), pp. 201309 [doi] [abs] .
  64. Yoo, J; Chandrasekharan, S; Kaul, RK; Ullmo, D; Baranger, HU, On the sign problem in the Hirsch-Fye algorithm for impurity problems, Journal of Physics A: Mathematical and General, vol. 38 no. 48 (2005), pp. 10307-10310 [pdf], [doi] [abs] .
  65. Chandrasekharan, Shailesh and Strouthos, Costas G., Connecting lattice QCD with chiral perturbation theory at strong coupling, Phys. Rev. D, vol. 69 (2004), pp. 091502 [pdf] [abs] .
  66. Brower, R. and Chandrasekharan, S. and Riederer, S. and Wiese, U. J., D-theory: Field quantization by dimensional reduction of discrete variables, Nucl. Phys. B, vol. 693 (2004), pp. 149-175 [pdf] [abs] .
  67. Chandrasekharan, S; Wiese, U-J, An introduction to chiral symmetry on the lattice, Progress in Particle and Nuclear Physics, vol. 53 no. 2 (2004), pp. 373-418 [pdf], [doi] [abs] .
  68. Chandrasekharan, S, Chiral and critical in strong coupling QCD, Nuclear Physics B - Proceedings Supplements, vol. 129-130 (2004), pp. 578-580 [pdf], [doi] [abs] .
  69. Chandrasekharan, S; Pepe, M; Steffen, FD; Wiese, U-J, Lattice theories with nonlinearly realized chiral symmetry, Nuclear Physics B - Proceedings Supplements, vol. 129-130 (2004), pp. 507-509 [pdf], [doi] [abs] .
  70. Brower, R; Chandrasekharan, S; Riederer, S; Wiese, U-J, D-theory: Field quantization by dimensional reduction of discrete variables, Nuclear Physics B, vol. 693 no. 1-3 (2004), pp. 149-175 [doi] [abs] .
  71. Chandrasekharan, S; Strouthos, CG, Connecting lattice QCD with chiral perturbation theory at strong coupling, Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 69 no. 9 (2004), pp. 091502 [doi] [abs] .
  72. Chandrasekharan, S; Pepe, M; Steffen, FD; Wiese, U-J, Nonlinear Realization of Chiral Symmetry on the Lattice, JHEP, vol. 0312 (June, 2003), pp. 035 [0306020v2], [doi] [abs] .
  73. Chandrasekharan, S. and Cox, J. and Osborn, J. C. and Wiese, U. J., Meron-Cluster Approach to Systems of Strongly Correlated Electrons, Nucl. Phys. B, vol. 673 (2003), pp. 405-436 [pdf] [abs] .
  74. Chandrasekharan, Shailesh and Jiang, Fu-Jiun, Chiral limit of strongly coupled lattice QCD at finite temperatures, Phys. Rev. D, vol. 68 (2003), pp. 091501 [pdf] [abs] .
  75. Chandrasekharan, S., Connections between quantum chromodynamics and condensed matter physics, Pramana, vol. 61 (2003), pp. 901-910 .
  76. Adams, David H. and Chandrasekharan, Shailesh, Chiral limit of strongly coupled lattice gauge theories, Nucl. Phys. B, vol. 662 (2003), pp. 220-246 [pdf] [abs] .
  77. Chandrasekharan, S. and Pepe, M. and Steffen, F. D. and Wiese, U. J., Nonlinear realization of chiral symmetry on the lattice, JHEP, vol. 12 (2003), pp. 035 [pdf] [abs] .
  78. Chandrasekharan, Shailesh and Strouthos, Costas G., Kosterlitz-Thouless universality in dimer models, Phys. Rev. D, vol. 68 (2003), pp. 091502 [pdf] [abs] .
  79. S. Chandrasekharan, CHIRAL LIMIT OF STAGGERED FERMIONS AT STRONG COUPLINGS: A LOOP REPRESENTATION, edited by Edwards, Negele and Richards, Nucl. Phys. B (Proceedings Suppl.), vol. 119 (2003), pp. 929 [abs] .
  80. Chandrasekharan, S; Pepe, M; Steffen, FD; Wiese, U-J, Nonlinear realization of chiral symmetry on the lattice, The Journal of High Energy Physics, vol. 7 no. 12 (2003), pp. 831-863 [abs] .
  81. Brower, R; Chandrasekharan, S; Negele, JW; Wiese, U-J, QCD at fixed topology, Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, vol. 560 no. 1-2 (2003), pp. 64-74 [pdf], [doi] [abs] .
  82. Chandrasekharan, S, Chiral limit of staggered fermions at strong couplings: A loop representation, Nuclear Physics B - Proceedings Supplements, vol. 119 (2003), pp. 929-931 [pdf], [doi] [abs] .
  83. Chandrasekharan, S, Connections between quantum chromodynamics and condensed matter physics, Pramana - Journal of Physics, vol. 61 no. 5 (2003), pp. 901-910 [abs] .
  84. Chandrasekharan, S; Strouthos, CG, Kosterlitz-Thouless universality in dimer models, Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 68 no. 9 (2003), pp. 091502 [doi] [abs] .
  85. Chandrasekharan, S; Jiang, F-J, Chiral limit of strongly coupled lattice QCD at finite temperatures, Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 68 no. 9 (2003), pp. 091501 [doi] [abs] .
  86. Chandrasekharan, S; Cox, J; Osborn, JC; Wiese, U-J, Meron-cluster approach to systems of strongly correlated electrons, Nuclear Physics B, vol. 673 no. 3 (2003), pp. 405-436 [doi] [abs] .
  87. Adams, DH; Chandrasekharan, S, Chiral limit of strongly coupled lattice gauge theories, Nuclear Physics B, vol. 662 no. 1-2 (2003), pp. 220-246 [doi] [abs] .
  88. Brower, R; Chandrasekharan, S; Negele, JW; Wiese, U-J, LATTICE QCD AT FIXED TOPOLOGY, Phys. Lett. B, vol. 560 (2003), pp. 64-74 [abs] .
  89. Brower, R. and Chandrasekharan, S. and Negele, J. W. and Wiese, U. J., Physical observables from lattice QCD at fixed topology, Nucl. Phys. Proc. Suppl., vol. 106 (2002), pp. 581-583 [pdf] [abs] .
  90. Chandrasekharan, S. and Scarlet, B. and Wiese, U. J., From spin ladders to the 2-d O(3) model at non-zero density, Comput. Phys. Commun., vol. 147 (2002), pp. 388-393 [pdf] [abs] .
  91. Chandrasekharan, Shailesh, Unexpected results in the chiral limit with staggered fermions, Phys. Lett. B, vol. 536 (2002), pp. 72-78 [pdf] [abs] .
  92. Chandrasekharan, S; Osborn, JC, Kosterlitz-Thouless universality in a fermionic system, Physical Review B - Condensed Matter and Materials Physics, vol. 66 no. 4 (2002), pp. 451131-451135 [abs] .
  93. Chandrasekharan, S, Superconductivity and chiral symmetry breaking with fermion clusters, Nuclear Physics B - Proceedings Supplements, vol. 106-107 (2002), pp. 1025-1027 [pdf], [doi] [abs] .
  94. Brower, R; Chandrasekharan, S; Negele, JW; Wiese, U-J, Physical observables from lattice QCD at fixed topology, Nuclear Physics B - Proceedings Supplements, vol. 106-107 (2002), pp. 581-583 [doi] [abs] .
  95. Chandrasekharan, S; Scarlet, B; Wiese, U-J, From spin ladders to the 2D O(3) model at non-zero density, Computer Physics Communications, vol. 147 no. 1-2 (2002), pp. 388-393 [doi] [abs] .
  96. Chandrasekharan, S, Unexpected results in the chiral limit with staggered fermions, Physics Letters B, vol. 536 no. 1-2 (2002), pp. 72-78 [doi] [abs] .
  97. Chandrasekharan, S, Novel Quantum Monte Carlo Algorithms for Fermions (October, 2001) [0110018v1] [abs] .
  98. Chandrasekharan, S; Osborn, JC, Kosterlitz-Thouless Universality in a Fermionic System, vol. 66 (September, 2001), pp. 045113 [0109424v1], [doi] [abs] .
  99. Alford, Mark G. and Chandrasekharan, S. and Cox, J. and Wiese, U. J., Solution of the complex action problem in the Potts model for dense QCD, Nucl. Phys. B, vol. 602 (2001), pp. 61-86 [pdf] [abs] .
  100. Chandrasekharan, Shailesh, Novel quantum Monte Carlo algorithms for fermions (2001) [pdf] [abs] .
  101. Chandrasekharan, S. and Chudnovsky, V. and Schlittgen, B. and Wiese, U. J., Flop transitions in cuprate and color superconductors: From SO(5) to SO(10) unification?, Nucl. Phys. Proc. Suppl., vol. 94 (2001), pp. 449-452 [pdf] [abs] .
  102. Chandrasekharan, Shailesh, QCD at a finite density of static quarks, Nucl. Phys. Proc. Suppl., vol. 94 (2001), pp. 71-78 [pdf] [abs] .
  103. Chandrasekharan, S; Osborn, J, Solving sign problems with meron algorithms, Springer Proceedings in Physics, vol. 86 (2001), pp. 28-42 [Gateway.cgi] .
  104. Chandrasekharan, S, QCD at a finite density of static quarks, Nuclear Physics B - Proceedings Supplements, vol. 94 no. 1-3 (2001), pp. 71-78 [doi] [abs] .
  105. Alford, M; Chandrasekharan, S; Cox, J; Wiese, U-J, Solution of the complex action problem in the Potts model for dense QCD, Nuclear Physics B, vol. 602 no. 1-2 (2001), pp. 61-86 [doi] [abs] .
  106. Chandrasekharan, S; Chudnovsky, V; Schlittgen, B; Wiese, U-J, Flop transitions in cuprate and color superconductors: From SO(5) to SO(10) unification?, Nuclear Physics B - Proceedings Supplements, vol. 94 no. 1-3 (2001), pp. 449-452 [doi] [abs] .
  107. Chandrasekharan, S; Wiese, U-J, SO(10) Unification of Color Superconductivity and Chiral Symmetry Breaking? (March, 2000) [0003214v1] [abs] .
  108. Chandrasekharan, S, A Chiral Phase Transition using a Fermion Cluster Algorithm, Chin.J.Phys., vol. 38 (January, 2000), pp. 696-706 [0001003v1] [abs] .
  109. Chandrasekharan, S. and Cox, J. and Holland, K. and Wiese, U. J., Meron-cluster simulation of a chiral phase transition with staggered fermions, Nucl. Phys. B, vol. 576 (2000), pp. 481-500 [pdf] [abs] .
  110. Chandrasekharan, Shailesh and Wiese, Uwe-Jens, SO(10) unification of color superconductivity and chiral symmetry breaking? (2000) [pdf] [abs] .
  111. Chandrasekharan, Shailesh and Osborn, James C., Critical behavior of a chiral condensate with a meron cluster algorithm, Phys. Lett. B, vol. 496 (2000), pp. 122-128 [pdf] [abs] .
  112. Chandrasekharan, S, Fermion cluster algorithms, Nuclear Physics B - Proceedings Supplements, vol. 83-84 no. 1-3 (2000), pp. 774-776 [pdf] [abs] .
  113. Chandrasekharan, S; Cox, J; Holland, K; Wiese, U-J, Meron-cluster simulation of a chiral phase transition with staggered fermions, Nuclear Physics B, vol. 576 no. 1-3 (2000), pp. 481-500 [abs] .
  114. Chandrasekharan, S; Osborn, JC, Critical behavior of a chiral condensate with a meron cluster algorithm, Physics Letters B, vol. 496 no. 1-2 (2000), pp. 122-128 [doi] [abs] .
  115. Chandrasekharan, S; Scarlet, B; Wiese, U-J, Meron-Cluster Simulation of Quantum Spin Ladders in a Magnetic Field (September, 1999) [9909451v1] [abs] .
  116. Chandrasekharan, Shailesh, Lattice QCD with Ginsparg-Wilson fermions, Phys. Rev. D, vol. 60 (1999), pp. 074503 [pdf] [abs] .
  117. Chandrasekharan, S. and Scarlet, B. and Wiese, U. J., Meron-Cluster Simulation of Quantum Spin Ladders in a Magnetic Field (1999) [pdf] [abs] .
  118. Chandrasekharan, Shailesh and Wiese, Uwe-Jens, Meron-cluster solution of a fermion sign problem, Phys. Rev. Lett., vol. 83 (1999), pp. 3116-3119 [pdf] [abs] .
  119. Chandrasekharan, Shailesh and others, Anomalous chiral symmetry breaking above the QCD phase transition, Phys. Rev. Lett., vol. 82 (1999), pp. 2463-2466 [pdf] [abs] .
  120. Bhattacharya, Tanmoy and Chandrasekharan, Shailesh and Gupta, Rajan and Lee, Weon-Jong and Sharpe, Stephen R., Non-perturbative renormalization constants using Ward identities, Phys. Lett. B, vol. 461 (1999), pp. 79-88 [pdf] [abs] .
  121. Chandrasekharan, Shailesh, Confinement, chiral symmetry breaking and continuum limits in quantum link models, Nucl. Phys. Proc. Suppl., vol. 73 (1999), pp. 739-741 [pdf] [abs] .
  122. Chandrasekharan, S, Ginsparg-Wilson fermions: A study in the Schwinger model, Physical Review D - Particles, Fields, Gravitation and Cosmology, vol. 59 no. 9 (1999), pp. 1-8 [pdf] [abs] .
  123. Chandrasekharan, S, Lattice QCD with Ginsparg-Wilson fermions, Physical Review D - Particles, Fields, Gravitation and Cosmology, vol. 60 no. 7 (1999), pp. 1-6 [9805015v3], [doi] [abs] .
  124. Brower, R; Chandrasekharan, S; Wiese, U-J, QCD as a quantum link model, Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 60 no. 9 (1999), pp. DUMMY42 [pdf] [abs] .
  125. Bhattacharya, T; Chandrasekharan, S; Gupta, R; Lee, W; Sharpe, S, Non-perturbative renormalization constants using Ward identities, Nuclear Physics B - Proceedings Supplements, vol. 73 no. 1-3 (1999), pp. 276-278 [pdf] [abs] .
  126. Bhattacharya, T; Chandrasekharan, S; Gupta, R; Lee, W; Sharpe, S, Non-perturbative renormalization constants using Ward identities 1, Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, vol. 461 no. 1-2 (1999), pp. 79-88 [abs] .
  127. Chandrasekharan, S, Confinement, chiral symmetry breaking and continuum limits in quantum link models, Nuclear Physics B - Proceedings Supplements, vol. 73 no. 1-3 (1999), pp. 739-741 [abs] .
  128. Chandrasekharan, S; Chen, D; Christ, N; Lee, W; Mawhinney, R; Vranas, P, Anomalous chiral symmetry breaking above the QCD phase transition, Physical Review Letters, vol. 82 no. 12 (1999), pp. 2463-2466 [abs] .
  129. Chandrasekharan, S; Wiese, U-J, Meron-Cluster Solution of Fermion Sign Problems, Physical Review Letters, vol. 83 no. 16 (1999), pp. 3116-3119 [abs] .
  130. Chandrasekharan, S, Ginsparg-Wilson Fermions: A study in the Schwinger Model, Phys.Rev. D, vol. 59 (October, 1998), pp. 094502 [9810007v2], [doi] [abs] .
  131. Beard, B. B. and others, D-theory: Field theory via dimensional reduction of discrete variables, Nucl. Phys. Proc. Suppl., vol. 63 (1998), pp. 775-789 [pdf] [abs] .
  132. Brower, R. and Chandrasekharan, S. and Wiese, U. J., Green's functions from quantum cluster algorithms, Physica A, vol. 261 (1998), pp. 520 [pdf] [abs] .
  133. Orginos, K. and Bietenholz, W. and Brower, R. and Chandrasekharan, S. and Wiese, U. -J., The perfect quark-gluon vertex function, Nucl. Phys. Proc. Suppl., vol. 63 (1998), pp. 904-906 [pdf] [abs] .
  134. Brower, R; Chandrasekharan, S; Wiese, U-J, Green’s functions from quantum cluster algorithms11This work is supported in part by funds provided by the US Department of Energy (DOE) under cooperative research agreement DE-FC02-94ER40818., vol. 261 no. 3 (1998), pp. 520-533 [abs] .
  135. Beard, BB; Brower, RC; Chandrasekharan, S; Chen, D; Tsapalis, A; Wiese, U-J, D-theory: Field theory via dimensional reduction of discrete variables, Nuclear Physics B - Proceedings Supplements, vol. 63 no. 1-3 (1998), pp. 775-789 [abs] .
  136. Orginos, K; Bietenholz, W; Brower, R; Chandrasekharan, S; Wiese, U-J, The perfect Quark-Gluon vertex function, Nuclear Physics B - Proceedings Supplements, vol. 63 no. 1-3 (1998), pp. 904-906 [abs] .
  137. Brower, R; Chandrasekharan, S; Wiese, U-J, Green's functions from quantum cluster algorithms, Physica A: Statistical Mechanics and its Applications, vol. 261 no. 3-4 (1998), pp. 520-533 [abs] .
  138. Brower, R; Chandrasekharan, S; Wiese, U-J, QCD as a Quantum Link Model, Phys. Rev. D, vol. 60 (April, 1997), pp. 094502 [9704106v1], [doi] [abs] .
  139. Bietenholz, W. and Brower, R. and Chandrasekharan, S. and Wiese, U. J., Perfect lattice topology: The quantum rotor as a test case, Phys. Lett. B, vol. 407 (1997), pp. 283-289 [pdf] [abs] .
  140. Bietenholz, W. and Brower, R. and Chandrasekharan, S. and Wiese, U. J., Perfect lattice actions for staggered fermions, Nucl. Phys. B, vol. 495 (1997), pp. 285-305 [pdf] [abs] .
  141. Chandrasekharan, S. and Wiese, U. J., Quantum link models: A discrete approach to gauge theories, Nucl. Phys. B, vol. 492 (1997), pp. 455-474 [pdf] [abs] .
  142. Bietenholz, W. and Brower, R. and Chandrasekharan, S. and Wiese, U. J., Progress on perfect lattice actions for QCD, Nucl. Phys. Proc. Suppl., vol. 53 (1997), pp. 921-934 [pdf] [abs] .
  143. Chandrasekharan, Shailesh, A large N chiral transition on a plaquette, Phys. Lett. B, vol. 395 (1997), pp. 83-88 [pdf] [abs] .
  144. Bietenholz, W; Brower, R; Chandrasekharan, S; Wiese, U-J, Perfect lattice topology: The quantum rotor as a test case, Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, vol. 407 no. 3-4 (1997), pp. 283-289 [abs] .
  145. Bietenholz, W; Brower, R; Chandrasekharan, S; Wiese, U-J, Perfect lattice actions for staggered fermions, Nuclear Physics B, vol. 495 no. 1-2 (1997), pp. 285-305 [abs] .
  146. Chandrasekharan, S, A large N chiral transition on a plaquette, Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, vol. 395 no. 1-2 (1997), pp. 83-88 [abs] .
  147. Chandrasekharan, S; Wiese, U-J, Quantum link models: A discrete approach to gauge theories, Nuclear Physics B, vol. 492 no. 1-2 (1997), pp. 455-471 [abs] .
  148. Bietenholz, W; Brower, R; Chandrasekharan, S; Wiese, U-J, Progress on perfect lattice actions for QCD, Nuclear Physics B - Proceedings Supplements, vol. 53 no. 1-3 (1997), pp. 921-934 [abs] .
  149. Chandrasekharan, S; Huang, S, Z3 twisted chiral condensates in QCD at finite temperatures., Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 53 no. 9 (May, 1996), pp. 5100-5104 [10020507] [abs] .
  150. Chandrasekharan, Shailesh and Christ, Norman H., Dirac Spectrum, Axial Anomaly and the QCD Chiral Phase Transition, Nucl. Phys. Proc. Suppl., vol. 47 (1996), pp. 527-534 [pdf] [abs] .
  151. Chandrasekharan, S; Christ, N, Dirac spectrum, axial anomaly and the QCD chiral phase transition, Nuclear Physics B - Proceedings Supplements, vol. 47 no. 1-3 (1996), pp. 527-534 [doi] [abs] .
  152. Chandrasekharan, S; Huang, S, Z3 twisted chiral condensates in QCD at finite temperatures, Physical Review D - Particles, Fields, Gravitation and Cosmology, vol. 53 no. 9 (1996), pp. 5100-5104 [pdf] [abs] .
  153. Chandrasekharan, Shailesh, Critical behavior of the chiral condensate at the QCD phase transition, Nucl. Phys. Proc. Suppl., vol. 42 (1995), pp. 475-477 [pdf] [abs] .
  154. Chandrasekharan, S, Critical behavior of the chiral condensate at the QCD phase transition, Nuclear Physics, Section B: Proceedings Supplements, vol. 42 no. 1-3 (1995), pp. 475-477 [doi] [abs] .
  155. Chandrasekharan, S, Anomaly cancellation in 2+1 dimensions in the presence of a domain wall mass., Physical Review D: Particles, Fields, Gravitation and Cosmology, vol. 49 no. 4 (February, 1994), pp. 1980-1987 [10017182] [abs] .
  156. Chandrasekharan, Shailesh, Anomaly cancellation in (2+1)-dimensions in the presence of a domain wall mass, Phys. Rev. D, vol. 49 (1994), pp. 1980-1987 [pdf] [abs] .
  157. Chandrasekharan, S., Fermions with a domain wall mass: Explicit Greens function and anomaly cancellation, Nucl. Phys. Proc. Suppl., vol. 34 (1994), pp. 579-582 .
  158. Chandrasekharan, S, Fermions with a domain-wall mass: explicit greens function and anomaly cancellation, Nuclear Physics, Section B: Proceedings Supplements, vol. 34 no. C (1994), pp. 579-582 [abs] .
Papers Accepted
  1. Haiyuan Zou, Yuzhi Liu, Chen-Yen Lai, J. Unmuth-Yockey, A. Bazavov, Z.Y. Xie, T. Xiang, S. Chandrasekharan, S. -W. Tsai, Y. Meurice, Towards quantum computing for the classical O(2) model, Phys. Rev. A (2014) [5238] [abs] .
Papers Submitted
  1. V. Ayyar and S. Chandrasekharan, Massive fermions without fermion bilinear condensates, arXiv:1410.6474 (submitted to Phys. Rev. D) (October, 2014) [6474] [abs] .
  2. Chandrasekharan, S, Fermion bags and a new origin for a fermion mass, PoS - Proceedings of Science, vol. Part F130500 (January, 2014) [1412.3532v1] [abs] .
  3. Lee, J-W; Chandrasekharan, S; Baranger, HU, Disorder-Induced Superfluidity in Hardcore Bosons in Two Dimensions (November, 2006) [0611109v1] [abs] .
Preprints
  1. S. Chandrasekharan and U.-J. Wiese, Partition Functions of Strongly Correlated Electron Systems as 'Fermionants'., arXiv:1108.2461 (July, 2011) [2461] [abs] .
  2. S. Chandrasekharan and U.-J. Wiese, SO(10) UNIFICATION OF COLOR SUPERCONDUCTIVITY AND CHIRAL SYMMETRY BREAKING? (2000)(DUKE-TH-00-203,MIT-CTP-2961.) [abs] .
  3. S. Chandrasekharan, B. Scarlet and U.-J. Wiese, MERON CLUSTER SIMULATION OF QUANTUM SPIN LADDERS IN A MAGNETIC FIELD (1999)(DUKE-TH-99-197, MIT-CTP-2904.) .