P. S. Custódio scite author profile

P. S. Custódio

4Publications

144Citation Statements Received

56Citation Statements Given

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136

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Museu de Astronomia e Ciências Afins, Universidade de São Paulo, Instituto de Geofísica y Astronomía

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The generalized uncertainty principle, entropy bounds and black-hole (non-)evaporation in a thermal bath

Custódio

Horvath

2003

Class. Quantum Grav.

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We apply the Generalized Uncertainty Principle (GUP) to the problem of maximum entropy and evaporation/absorption of energy of black holes near the Planck scale. We find within this general approach corrections to the maximum entropy, and indications for quenching of the evaporation because not only the evaporation term goes to a finite limit, but also because absorption of quanta seems to help the balance for black holes in a thermal bath. Then, residual masses around the Planck scale may be the final outcome of primordial black hole evaporation.

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Evolution of a primordial black hole population

Custódio

Horvath

1998

Phys. Rev. D

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We reconsider in this work the effects of an energy absorption term in the evolution of primordial black holes (hereafter PBHs) in the several epochs of the Universe. A critical mass is introduced as a boundary between the accreting and evaporating regimes of the PBHs. We show that the growth of PBHs is negligible in the Radiation-dominated Era due to scarcity of energy density supply from the expanding background, in agreement with a previous analysis by Carr and Hawking, but that nevertheless the absorption term is large enough for black holes above the critical mass to preclude their evaporation until the universe has cooled sufficiently. The effects of PBH motion are also discussed: the Doppler effect may give rise to energy accretion in black-holes with large peculiar motions relative to background. We discuss how cosmological constraints are modified by the introduction of the critical mass since that PBHs above it do not disturb the CMBR. We show that there is a large range of admissible masses for PBHs above the critical mass but well below the cosmological horizon. Finally we outline a minimal kinetic formalism, solved in some limiting cases, to deal with more complicated cases of PBH populations.

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The Evolution of Primordial Black Hole Masses in the Radiation-Dominated Era

Custódio

Horvath

2002

General Relativity and Gravitation

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We discuss in this work the behaviour of primordial black holes (PBHs) in the radiative era. Taking into account the Hawking evaporation and the absorption of energy we revisit the complete differential equation for the evolution of the mass of a PBH. We show that the mass can grow in this cosmological phase in a very slow fashion (even when considering the very high temperature of the radiation) if at all, and give a strong upper limit to the maximum accretion of mass. We evaluate relativistic effects due to the peculiar motion relative to the CMBR and show that the existence of relativistic black holes with very high mass absorption is highly unlikely. Finally we demonstrate that thermodynamical equilibrium between black holes and the cosmic radiation can not exist for finite times, and therefore initially non-evaporating PBHs must jump to the evaporating regime. This analysis supports the several efforts performed to look for signatures of evaporating holes.

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Evolution of primordial black holes in a radiation and phantom energy environment

Guariento¹,

Horvath²,

Pacheco³

et al. 2007

Gen Relativ Gravit

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In this work we extend previous work on the evolution of a Primordial Black Hole (PBH) to address the presence of a dark energy component with a super-negative equation of state as a background, investigating the competition between the radiation accretion, the Hawking evaporation and the phantom accretion, the latter two causing a decrease on black hole mass. It is found that there is an instant during the matter-dominated era after which the radiation accretion becomes negligible compared to the phantom accretion. The Hawking evaporation may become important again depending on a mass threshold. The evaporation of PBHs is quite modified at late times by these effects, but only if the Generalized Second Law of thermodynamics is violated.

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P. S. Custódio

The generalized uncertainty principle, entropy bounds and black-hole (non-)evaporation in a thermal bath

Evolution of a primordial black hole population

The Evolution of Primordial Black Hole Masses in the Radiation-Dominated Era

Evolution of primordial black holes in a radiation and phantom energy environment

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