Decay of accelerated protons and the existence of the Fulling-Davies-Unruh effect DAT Vanzella, GEA Matsas Physical Review Letters 87 (15), 151301, 2001 | 156 | 2001 |
Sudden gravitational transition RR Caldwell, W Komp, L Parker, DAT Vanzella Physical Review D 73 (2), 023513, 2006 | 136 | 2006 |
Decay of protons and neutrons induced by acceleration GEA Matsas, DAT Vanzella Physical Review D 59 (9), 094004, 1999 | 77 | 1999 |
Awaking the vacuum in relativistic stars WCC Lima, GEA Matsas, DAT Vanzella Physical review letters 105 (15), 151102, 2010 | 61 | 2010 |
Proposal for observing the Unruh effect using classical electrodynamics G Cozzella, AGS Landulfo, GEA Matsas, DAT Vanzella Physical Review Letters 118 (16), 161102, 2017 | 60 | 2017 |
Weak decay of uniformly accelerated protons and related processes DAT Vanzella, GEA Matsas Physical Review D 63 (1), 014010, 2000 | 60 | 2000 |
Can quantum mechanics fool the cosmic censor? GEA Matsas, M Richartz, A Saa, ARR Da Silva, DAT Vanzella Physical Review D 79 (10), 101502, 2009 | 56 | 2009 |
Acceleration of the universe, vacuum metamorphosis, and the large-time asymptotic form of the heat kernel L Parker, DAT Vanzella Physical Review D 69 (10), 104009, 2004 | 51 | 2004 |
Comment on “Trouble with the Lorentz law of force: incompatibility with special relativity and momentum conservation” DAT Vanzella Physical review letters 110 (8), 089401, 2013 | 49 | 2013 |
Unruh effect for mixing neutrinos G Cozzella, SA Fulling, AGS Landulfo, GEA Matsas, DAT Vanzella Physical Review D 97 (10), 105022, 2018 | 40 | 2018 |
Probing the Unruh effect with an accelerated extended system CAU Lima, F Brito, JA Hoyos, DAT Vanzella Nature communications 10 (1), 3030, 2019 | 36 | 2019 |
Gravity-induced vacuum dominance WCC Lima, DAT Vanzella Physical review letters 104 (16), 161102, 2010 | 35 | 2010 |
The Fulling–Davies–Unruh effect is mandatory: The proton's testimony GEA Matsas, DAT Vanzella International Journal of Modern Physics D 11 (10), 1573-1577, 2002 | 31 | 2002 |
Member of the Editorial Board of" Scientific Reports" F Magnani Scientific Reports, 2014 | 27* | 2014 |
Free massive particles with total energy in curved spacetimes J Castineiras, LCB Crispino, GEA Matsas, DAT Vanzella Physical Review D 65 (10), 104019, 2002 | 25 | 2002 |
Dark matter: The Top of the iceberg? GEA Matsas, JC Montero, V Pleitez, DAT Vanzella Arxiv preprint hep-ph/9810456, 1998 | 25 | 1998 |
Quantum versus classical instability of scalar fields in curved backgrounds RFP Mendes, GEA Matsas, DAT Vanzella Physical Review D 89 (4), 047503, 2014 | 24 | 2014 |
Particle creation due to tachyonic instability in relativistic stars AGS Landulfo, WCC Lima, GEA Matsas, DAT Vanzella Physical Review D 86 (10), 104025, 2012 | 22 | 2012 |
Instability of nonminimally coupled scalar fields in the spacetime of slowly rotating compact objects RFP Mendes, GEA Matsas, DAT Vanzella Physical Review D 90 (4), 044053, 2014 | 19 | 2014 |
General covariance, Lorentz covariance, the Lorentz force, and Maxwell equations DAT Vanzella, GEA Matsas, HW Crater American Journal of Physics, 1075-1076, 1996 | 16 | 1996 |