| Reanalysis of the Eotvös experiment E Fischbach, D Sudarsky, A Szafer, C Talmadge, SH Aronson Physical Review Letters 56 (1), 3-6, 1986 | 821 | 1986 |
| Lorentz invariance and quantum gravity: an additional fine-tuning problem? J Collins, A Perez, D Sudarsky, L Urrutia, H Vucetich Physical review letters 93 (19), 191301, 2004 | 371 | 2004 |
| Extrema of mass, stationarity, and staticity, and solutions to the Einstein-Yang-Mills equations D Sudarsky, RM Wald Physical Review D 46 (4), 1453, 1992 | 321 | 1992 |
| Dark energy from violation of energy conservation T Josset, A Perez, D Sudarsky Physical review letters 118 (2), 021102, 2017 | 213 | 2017 |
| On the quantum origin of the seeds of cosmic structure A Perez, H Sahlmann, D Sudarsky Classical and Quantum Gravity 23 (7), 2317, 2006 | 213 | 2006 |
| A simple proof of a no-hair theorem in Einstein-Higgs theory D Sudarsky Classical and Quantum Gravity 12 (2), 579, 1995 | 181 | 1995 |
| Observational bounds on quantum gravity signals using existing data D Sudarsky, L Urrutia, H Vucetich Physical review letters 89 (23), 231301, 2002 | 169 | 2002 |
| Shortcomings in the understanding of why cosmological perturbations look classical D Sudarsky International Journal of Modern Physics D 20 (04), 509-552, 2011 | 143 | 2011 |
| Bremsstrahlung and fulling-davies-unruh thermal bath A Higuchi, GEA Matsas, D Sudarsky Physical Review D 46 (8), 3450, 1992 | 121 | 1992 |
| Alternative approach to the galactic dark matter problem U Nucamendi, M Salgado, D Sudarsky Physical Review D 63 (12), 125016, 2001 | 118 | 2001 |
| Spontaneous scalarization M Salgado, D Sudarsky, U Nucamendi Physical Review D 58 (12), 124003, 1998 | 113 | 1998 |
| Bremssstrahlung and zero-energy Rindler photons A Higuchi, GEA Matsas, D Sudarsky Physical Review D 45 (10), R3308, 1992 | 111 | 1992 |
| Black holes have no short hair D Núñez, H Quevedo, D Sudarsky Physical review letters 76 (4), 571, 1996 | 110 | 1996 |
| Long-range forces and the Eötvös experiment E Fischbach, D Sudarsky, A Szafer, C Talmadge, SH Aronson Annals of Physics 182 (1), 1-89, 1988 | 105 | 1988 |
| Do collapsed boson stars result in new types of black holes? I Peña, D Sudarsky Classical and Quantum Gravity 14 (11), 3131, 1997 | 97 | 1997 |
| Continuous spontaneous localization wave function collapse model as a mechanism<? format?> for the emergence of cosmological asymmetries in inflation P Canate, P Pearle, D Sudarsky Physical Review D—Particles, Fields, Gravitation, and Cosmology 87 (10), 104024, 2013 | 87 | 2013 |
| Bounds on stringy quantum gravity from low energy existing data D Sudarsky, L Urrutia, H Vucetich Physical Review D 68 (2), 024010, 2003 | 85 | 2003 |
| Phenomenological analysis of quantum collapse as source of the seeds of cosmic structure A De Unánue, D Sudarsky Physical Review D—Particles, Fields, Gravitation, and Cosmology 78 (4), 043510, 2008 | 78 | 2008 |
| Non-minimally coupled scalar fields and isolated horizons A Ashtekar, A Corichi, D Sudarsky Classical and Quantum Gravity 20 (15), 3413, 2003 | 78 | 2003 |
| Einstein-Yang-Mills isolated horizons: phase space, mechanics, hair, and conjectures A Corichi, U Nucamendi, D Sudarsky Physical Review D 62 (4), 044046, 2000 | 75 | 2000 |
Ephraim FischbachProfessor of Physics, Purdue University在 purdue.edu 的电子邮件经过验证
