The mass quantum and black hole entropy II

B. Ram (N.M.S.U.; Las Cruces; U.S.A.)

arXiv:gr-qc/0101056·gr-qc·May 23, 2007

The mass quantum and black hole entropy II

B. Ram (N.M.S.U., Las Cruces, U.S.A.)

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TL;DR

This paper extends a previous method to show that a quantum of mass with spin one can account for the entropy of rotating black holes, matching the Bekenstein-Hawking formula.

Contribution

It introduces a new approach using spin one mass quanta to derive black hole entropy consistent with established formulas.

Findings

01

Mass quantum with spin one reproduces black hole entropy

02

Method confirms Bekenstein-Hawking entropy for rotating black holes

03

Extends previous work on mass quanta and black hole thermodynamics

Abstract

In gr-qc/9908036 [Phys. Lett. A 265 (2000) 1] a new method was given which naturally led to a quantum of mass equal to twice the Planck mass. In the present note which, for convenience, we write formally as a continuation of that paper, we show that with spin one of the mass quantum, the physical entropy of a rotating black hole is also given by the Bekenstein-Hawking formula.

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Taxonomy

TopicsExperimental and Theoretical Physics Studies · Relativity and Gravitational Theory · Cosmology and Gravitation Theories