Top Cited Articles during 2003 by gr-qc

Top Cited Articles during 2003 by gr-qc

The 50 most highly cited papers during 2003 cited by papers in the gr-qc 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. Remember the detailed warning about the accuracy of these counts.

Also note that the counts shown, and used in the rankings, are the counts as of Thu 22-Feb-2007. 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. The lists, however, will not update.

  1. 75
    An Alternative to compactification
    By Lisa Randall (Princeton U. & MIT, LNS), Raman Sundrum (Boston U.).
    Published in:Phys.Rev.Lett.83:4690-4693,1999 [arXiv: hep-th/9906064]
    [2996 Total citations in HEP]
  2. 68
    A Large mass hierarchy from a small extra dimension
    By Lisa Randall (Princeton U. & MIT, LNS), Raman Sundrum (Boston U.).
    Published in:Phys.Rev.Lett.83:3370-3373,1999 [arXiv: hep-ph/9905221]
    [3223 Total citations in HEP]
  3. 67
    Observational evidence from supernovae for an accelerating universe and a cosmological constant
    By Supernova Search Team (Adam G. Riess et al.).
    Published in:Astron.J.116:1009-1038,1998 [arXiv: astro-ph/9805201]
    [3058 Total citations in HEP]
  4. 63
    Measurements of Omega and Lambda from 42 high redshift supernovae
    By Supernova Cosmology Project (S. Perlmutter et al.).
    Published in:Astrophys.J.517:565-586,1999 [arXiv: astro-ph/9812133]
    [3173 Total citations in HEP]
  5. 56
    Particle Creation by Black Holes
    By S.W. Hawking (Cambridge U.).
    Published in:Commun.Math.Phys.43:199-220,1975, Erratum-ibid.46:206-206,1976
    [2586 Total citations in HEP]
  6. 49
    Black holes and entropy
    By Jacob D. Bekenstein (Princeton U. & Texas U.).
    Published in:Phys.Rev.D7:2333-2346,1973
    [1201 Total citations in HEP]
  7. 46
    The Hierarchy problem and new dimensions at a millimeter
    By Nima Arkani-Hamed (SLAC), Savas Dimopoulos (Stanford U., Phys. Dept.), G.R. Dvali (ICTP, Trieste).
    Published in:Phys.Lett.B429:263-272,1998 [arXiv: hep-ph/9803315]
    [3059 Total citations in HEP]
  8. 41
    The Einstein equation on the 3-brane world
    By Tetsuya Shiromizu (Cambridge U., DAMTP & Tokyo U. & Tokyo U., RESCEU), Kei-ichi Maeda (Newton Inst. Math. Sci., Cambridge & Waseda U.), Misao Sasaki (Newton Inst. Math. Sci., Cambridge & Tokyo U. & Osaka U.).
    Published in:Phys.Rev.D62:024012,2000 [arXiv: gr-qc/9910076]
    [688 Total citations in HEP]
  9. 37
    New dimensions at a millimeter to a Fermi and superstrings at a TeV
    By Ignatios Antoniadis (Ecole Polytechnique), Nima Arkani-Hamed (SLAC), Savas Dimopoulos (Stanford U., Phys. Dept.), G.R. Dvali (ICTP, Trieste).
    Published in:Phys.Lett.B436:257-263,1998 [arXiv: hep-ph/9804398]
    [2324 Total citations in HEP]
  10. 35
    Quantum Theory of Gravity. 1. The Canonical Theory
    By Bryce S. DeWitt (Princeton, Inst. Advanced Study & North Carolina U.).
    Published in:Phys.Rev.160:1113-1148,1967
    [1076 Total citations in HEP]
  11. 34
    LIGO: The Laser interferometer gravitational wave observatory
    By Alex Abramovici, William E. Althouse, Ronald W.P. Drever, Yekta Gursel, Seiji Kawamura, Frederick J. Raab, David Shoemaker, Lisa Sievers, Robert E. Spero, Kip S. Thorne, Rochus E. Vogt, Rainer Weiss, Stanley E. Whitcomb, Michael E. Zucker (Caltech & Caltech, JPL & MIT, LNS).
    Published in:Science 256:325-333,1992
    [561 Total citations in HEP]
  12. 34
    The Black hole in three-dimensional space-time
    By Maximo Banados (CECS, Valdivia & Chile U., Santiago), Claudio Teitelboim (CECS, Valdivia & Chile U., Santiago & Princeton, Inst. Advanced Study), Jorge Zanelli (CECS, Valdivia & Chile U., Santiago).
    Published in:Phys.Rev.Lett.69:1849-1851,1992 [arXiv: hep-th/9204099]
    [900 Total citations in HEP]
  13. 30
    First year Wilkinson Microwave Anisotropy Probe (WMAP) observations: Preliminary maps and basic results
    By WMAP Collaboration (C.L. Bennett et al.).
    Published in:Astrophys.J.Suppl.148:1,2003 [arXiv: astro-ph/0302207]
    [2021 Total citations in HEP]
  14. 29
    Singular hypersurfaces and thin shells in general relativity
    By W. Israel (Alberta U.).
    Published in:Nuovo Cim.B44S10:1,1966, Erratum-ibid.B48:463,1967, Nuovo Cim.B44:1,1966
    [704 Total citations in HEP]
  15. 27
    The Cosmological Constant Problem
    By Steven Weinberg (Texas U.).
    Published in:Rev.Mod.Phys.61:1-23,1989
    [1234 Total citations in HEP]
  16. 27
    Black hole explosions
    By S.W. Hawking (Cambridge U.).
    Published in:Nature 248:30-31,1974
    [915 Total citations in HEP]
  17. 26
    First year Wilkinson Microwave Anisotropy Probe (WMAP) observations: Determination of cosmological parameters
    By WMAP Collaboration (D.N. Spergel et al.).
    Published in:Astrophys.J.Suppl.148:175,2003 [arXiv: astro-ph/0302209]
    [4036 Total citations in HEP]
  18. 25
    Brane cosmological evolution in a bulk with cosmological constant
    By Pierre Binetruy, Cedric Deffayet, Ulrich Ellwanger (Orsay, LPT), David Langlois (Meudon Observ.).
    Published in:Phys.Lett.B477:285-291,2000 [arXiv: hep-th/9910219]
    [616 Total citations in HEP]
  19. 25
    The Cosmological constant and dark energy
    By P.J.E. Peebles (Princeton U.), Bharat Ratra (Kansas State U.).
    Published in:Rev.Mod.Phys.75:559-606,2003 [arXiv: astro-ph/0207347]
    [792 Total citations in HEP]
  20. 24
    Notes on black hole evaporation
    By W.G. Unruh (McMaster U.).
    Published in:Phys.Rev.D14:870,1976
    [913 Total citations in HEP]
  21. 23
    Discovery of a supernova explosion at half the age of the Universe and its cosmological implications
    By Supernova Cosmology Project (S. Perlmutter et al.).
    Published in:Nature 391:51-54,1998 [arXiv: astro-ph/9712212]
    [777 Total citations in HEP]
  22. 23
    Wave Function of the Universe
    By J.B. Hartle (Chicago U., EFI & Santa Barbara, KITP), S.W. Hawking (Cambridge U. & Santa Barbara, KITP).
    Published in:Phys.Rev.D28:2960-2975,1983
    [1237 Total citations in HEP]
  23. 23
    Geometry of the (2+1) black hole
    By Maximo Banados (CECS, Valdivia & Chile U., Santiago & CECS, Valdivia & Brussels U. & CECS, Valdivia & Chile U., Santiago & Princeton, Inst. Advanced Study & CECS, Valdivia & Chile U., Santiago), Marc Henneaux (CECS, Valdivia & Brussels U.), Claudio Teitelboim (CECS, Valdivia & Chile U., Santiago & Princeton, Inst. Advanced Study), Jorge Zanelli (CECS, Valdivia & Chile U., Santiago).
    Published in:Phys.Rev.D48:1506-1525,1993 [arXiv: gr-qc/9302012]
    [613 Total citations in HEP]
  24. 22
    The Large N limit of superconformal field theories and supergravity
    By Juan M. Maldacena (Harvard U.).
    Published in:Adv.Theor.Math.Phys.2:231-252,1998, Int.J.Theor.Phys.38:1113-1133,1999 [arXiv: hep-th/9711200]
    [4497 Total citations in HEP]
  25. 22
    Heterotic and type I string dynamics from eleven-dimensions
    By Petr Horava (Princeton U.), Edward Witten (Princeton, Inst. Advanced Study).
    Published in:Nucl.Phys.B460:506-524,1996 [arXiv: hep-th/9510209]
    [1610 Total citations in HEP]
  26. 22
    The Case for a positive cosmological Lambda term
    By Varun Sahni (IUCAA, Pune), Alexei A. Starobinsky (Landau Inst.).
    Published in:Int.J.Mod.Phys.D9:373-444,2000 [arXiv: astro-ph/9904398]
    [507 Total citations in HEP]
  27. 21
    (2+1)-Dimensional Gravity as an Exactly Soluble System
    By Edward Witten (Princeton, Inst. Advanced Study).
    Published in:Nucl.Phys.B311:46,1988
    [996 Total citations in HEP]
  28. 21
    Cosmological constant: The Weight of the vacuum
    By T. Padmanabhan (IUCAA, Pune).
    Published in:Phys.Rept.380:235-320,2003 [arXiv: hep-th/0212290]
    [547 Total citations in HEP]
  29. 21
    Anti-de Sitter space and holography
    By Edward Witten (Princeton, Inst. Advanced Study).
    Published in:Adv.Theor.Math.Phys.2:253-291,1998 [arXiv: hep-th/9802150]
    [3046 Total citations in HEP]
  30. 21
    The Inflationary Universe: A Possible Solution to the Horizon and Flatness Problems
    By Alan H. Guth (SLAC).
    Published in:Phys.Rev.D23:347-356,1981
    [2815 Total citations in HEP]
  31. 20
    Cosmological imprint of an energy component with general equation of state
    By R.R. Caldwell, Rahul Dave, Paul J. Steinhardt (Pennsylvania U.).
    Published in:Phys.Rev.Lett.80:1582-1585,1998 [arXiv: astro-ph/9708069]
    [1085 Total citations in HEP]
  32. 18
    Phenomenology, astrophysics and cosmology of theories with submillimeter dimensions and TeV scale quantum gravity
    By Nima Arkani-Hamed (SLAC), Savas Dimopoulos (Stanford U., Phys. Dept.), G.R. Dvali (ICTP, Trieste).
    Published in:Phys.Rev.D59:086004,1999 [arXiv: hep-ph/9807344]
    [1449 Total citations in HEP]
  33. 18
    Cosmological Consequences of a Rolling Homogeneous Scalar Field
    By Bharat Ratra, P.J.E. Peebles (Princeton U.).
    Published in:Phys.Rev.D37:3406,1988
    [1236 Total citations in HEP]
  34. 17
    The Cosmic triangle: Assessing the state of the universe
    By Neta A. Bahcall, Jeremiah P. Ostriker (Princeton U. Observ.), Saul Perlmutter (LBL, Berkeley), Paul J. Steinhardt (Princeton U.).
    Published in:Science 284:1481-1488,1999 [arXiv: astro-ph/9906463]
    [630 Total citations in HEP]
  35. 17
    Action Integrals and Partition Functions in Quantum Gravity
    By G.W. Gibbons, S.W. Hawking (Cambridge U.).
    Published in:Phys.Rev.D15:2752-2756,1977
    [1013 Total citations in HEP]
  36. 17
    Nonconventional cosmology from a brane universe
    By Pierre Binetruy, Cedric Deffayet (Orsay), David Langlois (Meudon Observ.).
    Published in:Nucl.Phys.B565:269-287,2000 [arXiv: hep-th/9905012]
    [646 Total citations in HEP]
  37. 17
    Cosmological Event Horizons, Thermodynamics, and Particle Creation
    By G.W. Gibbons, S.W. Hawking (Cambridge U.).
    Published in:Phys.Rev.D15:2738-2751,1977
    [830 Total citations in HEP]
  38. 17
    Mach's principle and a relativistic theory of gravitation
    By C. Brans, R.H. Dicke (Princeton U.).
    Published in:Phys.Rev.124:925-935,1961
    [949 Total citations in HEP]
  39. 16
    Eleven-dimensional supergravity on a manifold with boundary
    By Petr Horava (Princeton U.), Edward Witten (Princeton, Inst. Advanced Study).
    Published in:Nucl.Phys.B475:94-114,1996 [arXiv: hep-th/9603142]
    [1173 Total citations in HEP]
  40. 15
    Quantum Theory and Five-Dimensional Theory of Relativity. (In German and English)
    By O. Klein (Copenhagen U.).
    Published in:Z.Phys.37:895-906,1926, Surveys High Energ.Phys.5:241-244,1986
    [1118 Total citations in HEP]
  41. 15
    A Flat universe from high resolution maps of the cosmic microwave background radiation
    By Boomerang Collaboration (P. de Bernardis et al.).
    Published in:Nature 404:955-959,2000 [arXiv: astro-ph/0004404]
    [1006 Total citations in HEP]
  42. 15
    Dimensional reduction in quantum gravity
    By Gerard 't Hooft (Utrecht U.).
    HEP Record [arXiv: gr-qc/9310026]
    [667 Total citations in HEP]
  43. 15
    New Variables for Classical and Quantum Gravity
    By A. Ashtekar (Syracuse U. & UC, Santa Barbara).
    Published in:Phys.Rev.Lett.57:2244-2247,1986
    [621 Total citations in HEP]
  44. 15
    Black Holes in Higher Dimensional Space-Times
    By Robert C. Myers, M.J. Perry (Princeton U.).
    Published in:Annals Phys.172:304,1986
    [635 Total citations in HEP]
  45. 14
    Theory of cosmological perturbations. Part 1. Classical perturbations. Part 2. Quantum theory of perturbations. Part 3. Extensions
    By Viatcheslav F. Mukhanov (Brown U. & Moscow, INR), H.A. Feldman (Canadian Inst. Theor. Astrophys.), Robert H. Brandenberger (Brown U.).
    Published in:Phys.Rept.215:203-333,1992
    [1007 Total citations in HEP]
  46. 14
    General Relativity with Spin and Torsion: Foundations and Prospects
    By F.W. Hehl, P. Von Der Heyde, G.D. Kerlick (Cologne U.), J.M. Nester (Maryland U.).
    Published in:Rev.Mod.Phys.48:393-416,1976
    [563 Total citations in HEP]
  47. 14
    Quintessence, cosmic coincidence, and the cosmological constant
    By Ivaylo Zlatev, Li-Min Wang (Pennsylvania U.), Paul J. Steinhardt (Pennsylvania U. & Princeton U.).
    Published in:Phys.Rev.Lett.82:896-899,1999 [arXiv: astro-ph/9807002]
    [748 Total citations in HEP]
  48. 14
    A New Type of Isotropic Cosmological Models Without Singularity
    By Alexei A. Starobinsky (Cambridge U. & Landau Inst.).
    Published in:Phys.Lett.B91:99-102,1980
    [674 Total citations in HEP]
  49. 13
    Three-Dimensional Einstein Gravity: Dynamics of Flat Space
    By S. Deser (Brandeis U.), R. Jackiw (MIT, LNS), Gerard 't Hooft (Utrecht U.).
    Published in:Annals Phys.152:220,1984
    [587 Total citations in HEP]
  50. 13
    The World as a hologram
    By Leonard Susskind (Stanford U., Phys. Dept.).
    Published in:J.Math.Phys.36:6377-6396,1995 [arXiv: hep-th/9409089]
    [867 Total citations in HEP]
  51. 13
    New Hamiltonian Formulation of General Relativity
    By A. Ashtekar (Syracuse U. & UC, Santa Barbara & Munich, Max Planck Inst.).
    Published in:Phys.Rev.D36:1587-1602,1987
    [695 Total citations in HEP]
  52. 13
    Generalized second law of thermodynamics in black hole physics
    By Jacob D. Bekenstein (Texas U.).
    Published in:Phys.Rev.D9:3292-3300,1974
    [603 Total citations in HEP]