Top Cited Articles of All Time (2014 edition) by nucl-th

The 100 most highly cited papers of All Time (2014 edition) cited by papers in the nucl-th archive

Keep in mind that citation counts can never be exact, there is something like a 5% error in most of these numbers. Please do not fret about number 32 versus 33, as this is often not a statistically significant difference. More information about citations in INSPIRE can be found here.

Also note that the counts shown, and used in the rankings, are the counts as of 2019-12-29. Further, the counts shown by the ranking are only the cites satisfying the criteria for that list. Actual citation numbers in the database may change as corrections are made and papers are added, the links will take you to the updated numbers.

Annual and All-time 2014 editions

2014 reports for eprints

2048 citations by nucl-th eprints up to the end of 2014PDG RPP has been unified. The most recent is shown.
Review of Particle Physics
Particle Data Group (M. Tanabashi (Nagoya U. & KMI, Nagoya) et al.). 2018. 1898 pp.
Published in Phys.Rev. D98 (2018) no.3, 030001
DOI: 10.1103/PhysRevD.98.030001

  1. 1106 citations by nucl-th eprints up to the end of 2014
  2. 982 citations by nucl-th eprints up to the end of 2014
    The Relativistic Nuclear Many Body Problem
    Brian D. Serot (Indiana U.), John Dirk Walecka (Stanford U., ITP). Oct 1984. 495 pp.
    Published in Adv.Nucl.Phys. 16 (1986) 1-327
    ITP-740-STANFORD

  3. 693 citations by nucl-th eprints up to the end of 2014
  4. 623 citations by nucl-th eprints up to the end of 2014
  5. 613 citations by nucl-th eprints up to the end of 2014
  6. 609 citations by nucl-th eprints up to the end of 2014
  7. 594 citations by nucl-th eprints up to the end of 2014
  8. 579 citations by nucl-th eprints up to the end of 2014
    The Meson theory of nuclear forces and nuclear structure
    R. Machleidt (UCLA). 1989. 188 pp.
    Published in Adv.Nucl.Phys. 19 (1989) 189-376

  9. 563 citations by nucl-th eprints up to the end of 2014
  10. 536 citations by nucl-th eprints up to the end of 2014
  11. 529 citations by nucl-th eprints up to the end of 2014
  12. 528 citations by nucl-th eprints up to the end of 2014
  13. 525 citations by nucl-th eprints up to the end of 2014
  14. 485 citations by nucl-th eprints up to the end of 2014
  15. 453 citations by nucl-th eprints up to the end of 2014
  16. 447 citations by nucl-th eprints up to the end of 2014
  17. 436 citations by nucl-th eprints up to the end of 2014
  18. 425 citations by nucl-th eprints up to the end of 2014
  19. 422 citations by nucl-th eprints up to the end of 2014
  20. 395 citations by nucl-th eprints up to the end of 2014
  21. 387 citations by nucl-th eprints up to the end of 2014
    Relativistic mean field in finite nuclei
    P. Ring (Munich U.). 1996. 71 pp.
    Published in Prog.Part.Nucl.Phys. 37 (1996) 193-263
    DOI: 10.1016/0146-6410(96)00054-3

  22. 387 citations by nucl-th eprints up to the end of 2014
  23. 385 citations by nucl-th eprints up to the end of 2014
  24. 382 citations by nucl-th eprints up to the end of 2014
  25. 380 citations by nucl-th eprints up to the end of 2014
  26. 365 citations by nucl-th eprints up to the end of 2014
  27. 363 citations by nucl-th eprints up to the end of 2014
  28. 363 citations by nucl-th eprints up to the end of 2014
  29. 354 citations by nucl-th eprints up to the end of 2014
  30. 352 citations by nucl-th eprints up to the end of 2014
  31. 350 citations by nucl-th eprints up to the end of 2014
    Microscopic models for ultrarelativistic heavy ion collisions
    S.A. Bass (Frankfurt U.) et al.. Mar 1998. 115 pp.
    Published in Prog.Part.Nucl.Phys. 41 (1998) 255-369, Prog.Part.Nucl.Phys. 41 (1998) 225-370
    DOI: 10.1016/S0146-6410(98)00058-1
    e-Print: nucl-th/9803035 | PDF

  32. 342 citations by nucl-th eprints up to the end of 2014
  33. 341 citations by nucl-th eprints up to the end of 2014
  34. 341 citations by nucl-th eprints up to the end of 2014
  35. 333 citations by nucl-th eprints up to the end of 2014
  36. 331 citations by nucl-th eprints up to the end of 2014
  37. 330 citations by nucl-th eprints up to the end of 2014
  38. 329 citations by nucl-th eprints up to the end of 2014
    Two nucleon systems from effective field theory
    David B. Kaplan, Martin J. Savage (Washington U., Seattle), Mark B. Wise (Caltech). Feb 1998. 28 pp.
    Published in Nucl.Phys. B534 (1998) 329-355
    DOE-ER-40561-357, INT-98-00-5, NT-UW-98-08, CALT-68-2161
    DOI: 10.1016/S0550-3213(98)00440-4
    e-Print: nucl-th/9802075 | PDF

  39. 322 citations by nucl-th eprints up to the end of 2014
  40. 322 citations by nucl-th eprints up to the end of 2014
  41. 318 citations by nucl-th eprints up to the end of 2014
  42. 316 citations by nucl-th eprints up to the end of 2014
    A New expansion for nucleon-nucleon interactions
    David B. Kaplan, Martin J. Savage (Washington U., Seattle), Mark B. Wise (Caltech). Jan 1998. 10 pp.
    Published in Phys.Lett. B424 (1998) 390-396
    DOE-ER-40561-352, INT-97-00-189, NT-UW-98-05, CALT-68-2155
    DOI: 10.1016/S0370-2693(98)00210-X
    e-Print: nucl-th/9801034 | PDF

  43. 310 citations by nucl-th eprints up to the end of 2014
  44. 306 citations by nucl-th eprints up to the end of 2014
  45. 301 citations by nucl-th eprints up to the end of 2014
  46. 300 citations by nucl-th eprints up to the end of 2014
    Phenomenological Lagrangians
    Steven Weinberg (Harvard U. & Harvard-Smithsonian Ctr. Astrophys.). Oct 1978. 14 pp.
    Published in Physica A96 (1979) no.1-2, 327-340
    HUTP-78-A051A
    DOI: 10.1016/0378-4371(79)90223-1
    Conference: C78-02-18 Proceedings

  47. 300 citations by nucl-th eprints up to the end of 2014
    Hydrodynamic description of ultrarelativistic heavy ion collisions
    Peter F. Kolb (SUNY, Stony Brook), Ulrich W. Heinz (Ohio State U.). May 2003. 82 pp.
    Published in In *Hwa, R.C. (ed.) et al.: Quark gluon plasma* 634-714
    SUNY-NTG-03-06
    e-Print: nucl-th/0305084 | PDF

  48. 296 citations by nucl-th eprints up to the end of 2014
  49. 287 citations by nucl-th eprints up to the end of 2014
  50. 281 citations by nucl-th eprints up to the end of 2014
  51. 280 citations by nucl-th eprints up to the end of 2014
  52. 279 citations by nucl-th eprints up to the end of 2014
  53. 279 citations by nucl-th eprints up to the end of 2014
  54. 278 citations by nucl-th eprints up to the end of 2014
  55. 278 citations by nucl-th eprints up to the end of 2014
  56. 273 citations by nucl-th eprints up to the end of 2014
  57. 273 citations by nucl-th eprints up to the end of 2014
  58. 268 citations by nucl-th eprints up to the end of 2014
  59. 266 citations by nucl-th eprints up to the end of 2014
  60. 265 citations by nucl-th eprints up to the end of 2014
  61. 265 citations by nucl-th eprints up to the end of 2014
  62. 262 citations by nucl-th eprints up to the end of 2014
  63. 258 citations by nucl-th eprints up to the end of 2014
  64. 257 citations by nucl-th eprints up to the end of 2014
  65. 256 citations by nucl-th eprints up to the end of 2014
  66. 255 citations by nucl-th eprints up to the end of 2014
  67. 253 citations by nucl-th eprints up to the end of 2014
  68. 249 citations by nucl-th eprints up to the end of 2014
  69. 246 citations by nucl-th eprints up to the end of 2014
  70. 246 citations by nucl-th eprints up to the end of 2014
  71. 246 citations by nucl-th eprints up to the end of 2014
  72. 245 citations by nucl-th eprints up to the end of 2014
  73. 243 citations by nucl-th eprints up to the end of 2014
  74. 243 citations by nucl-th eprints up to the end of 2014
  75. 242 citations by nucl-th eprints up to the end of 2014
  76. 241 citations by nucl-th eprints up to the end of 2014
  77. 240 citations by nucl-th eprints up to the end of 2014
  78. 238 citations by nucl-th eprints up to the end of 2014
  79. 236 citations by nucl-th eprints up to the end of 2014
  80. 236 citations by nucl-th eprints up to the end of 2014
  81. 235 citations by nucl-th eprints up to the end of 2014
  82. 232 citations by nucl-th eprints up to the end of 2014
  83. 227 citations by nucl-th eprints up to the end of 2014
  84. 227 citations by nucl-th eprints up to the end of 2014
  85. 227 citations by nucl-th eprints up to the end of 2014
  86. 224 citations by nucl-th eprints up to the end of 2014
  87. 224 citations by nucl-th eprints up to the end of 2014
  88. 223 citations by nucl-th eprints up to the end of 2014
  89. 219 citations by nucl-th eprints up to the end of 2014
  90. 219 citations by nucl-th eprints up to the end of 2014
  91. 218 citations by nucl-th eprints up to the end of 2014
  92. 217 citations by nucl-th eprints up to the end of 2014
  93. 214 citations by nucl-th eprints up to the end of 2014
  94. 211 citations by nucl-th eprints up to the end of 2014
  95. 211 citations by nucl-th eprints up to the end of 2014
  96. 211 citations by nucl-th eprints up to the end of 2014
  97. 210 citations by nucl-th eprints up to the end of 2014
  98. 209 citations by nucl-th eprints up to the end of 2014
  99. 209 citations by nucl-th eprints up to the end of 2014