Unruh effect and applications
Decay of accelerated protons and the existence of the Fulling-Davies-Unruh effect
Vanzella DAT, Matsas GEA
PHYSICAL REVIEW LETTERS, Volume: 87, Article Number: 151301 (2001)
The Unruh effect and its applications
Crispino LCB, Higuchi A, Matsas GEA
REVIEWS OF MODERN PHYSICS, Volume: 80, 787-838 (2008)
Sudden death of entanglement and teleportation fidelity loss via the Unruh effect
Landulfo AGS, Matsas GEA
PHYSICAL REVIEW A , Volume: 80, Article Number: 032315 (2009)
Proposal for observing the Unruh effect using classical electrodynamics
Cozzella G, Landulfo AGS, Matsas GEA, Vanzella DAT
PHYSICAL REVIEW LETTERS , Volume: 118, Article Number: 161102 (2017)
Resolution whether or not charges radiate with respect to coaccelerating observers
Bremsstrahlung and zero-energy Rindler photons
Higuchi A, Matsas GEA, Sudarsky D
PHYSICAL REVIEW D, Volume: 45, Pages: R3308 (1992)
Do static sources outside a Schwarzschild black hole radiate?
Higuchi A, Matsas GEA, Sudarsky D
PHYSICAL REVIEW D, Volume: 56, Pages: R6071 (1997)
Interaction of Hawking radiation and a static electric charge
Crispino LCB, Higuchi A, Matsas GEA
PHYSICAL REVIEW D, Volume: 58, Article Number: 084027 (1998)
Classical and quantum aspects of the radiation emitted by a uniformly accelerated charge: Larmor-Unruh reconciliation and zero-frequency Rindler modes
Landulfo AGS, Fulling SA, Matsas GEA
PHYSICAL REVIEW D , Volume: 100, Article Number: 045020 (2019)
On the Lima-Vanzella effect
Awaking the vacuum in relativistic stars
Lima WCC, Matsas GEA, Vanzella DAT
PHYSICAL REVIEW LETTERS, Volume: 105, Article Number: 151102 (2010)
Particle creation due to tachyonic instability in relativistic stars
Lima WCC,Landulfo AGS, Matsas GEA, Vanzella DAT
PHYSICAL REVIEW D, Volume: 86, Article Number: 104025 (2012)
From quantum to classical instability in relativistic stars
Lima WCC,Landulfo AGS, Matsas GEA, Vanzella DAT
PHYSICAL REVIEW D, Volume: 91, Article Number: 024011 (2015)
Can we fool the cosmic censor?
Overspinning a nearly extreme charged black hole via a quantum tunneling process
Matsas GEA, da Silva ARR
PHYSICAL REVIEW LETTERS, Volume: 99, Article Number: 181301 (2007)
Can quantum mechanics fool the cosmic censor?
Matsas GEA, Richartz M, Saa A, da Silva ARR, Vanzella DAT
PHYSICAL REVIEW D, Volume: 79, Article Number: 101502 (2009)
On the curved spacetime swimming effect
Rescuing the concept of swimming in curved spacetime
Andrade e Silva R, Matsas GEA, Vanzella DAT
PHYSICAL REVIEW D, Volume: 94, Article Number: 121502(R) (2016)
Information loss in black holes is not paradoxical
Globally hyperbolic evaporating black hole and the information loss issue
Pegas JVO, Landulfo AGS, Matsas GEA, Vanzella DAT
CLASSICAL AND QUANTUM GRAVITY, Volume: 42, Article Number: 065009 (2025)
Resolution of the “submarine paradox”
Relativistic Archimedes law for fast moving bodies and the general-relativistic resolution of the "submarine paradox"
Matsas GEA
PHYSICAL REVIEW D, Volume: 68, Article Number: 027701 (2003)