Absorption of charged particles in a Reissner-Nordstr\"om Black-Hole:   entropy evolution from Relativistic Quantum Geometry

Marcos R. A. Arcod\'ia; Luis Santiago Ridao; Mauricio Bellini (IFIMAR; - CONICET & UNMdP)

arXiv:1606.06766·gr-qc·August 2, 2016

Absorption of charged particles in a Reissner-Nordstr\"om Black-Hole: entropy evolution from Relativistic Quantum Geometry

Marcos R. A. Arcod\'ia, Luis Santiago Ridao, Mauricio Bellini (IFIMAR, - CONICET & UNMdP)

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TL;DR

This paper investigates how entropy evolves in charged black holes using Relativistic Quantum Geometry, revealing that entropy can decrease in small black holes but always increases in large ones.

Contribution

It introduces a novel application of Relativistic Quantum Geometry to analyze entropy behavior in charged black holes, highlighting size-dependent entropy evolution.

Findings

01

Entropy can decrease in small black holes under certain conditions.

02

Entropy always increases in very massive black holes.

03

Relativistic Quantum Geometry provides new insights into black hole thermodynamics.

Abstract

Using Relativistic Quantum Geometry we show that the entropy can decrease in very small BHs, under certain circumstances, but always increases in very massive Black-Holes.

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