Black quanta. On the thermodynamics of the black holes

M Apostol

doi:10.17352/amp.000004

Annals of Mathematics and Physics volume2-issue1 articles

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Submitted: November 29, 2019

Published: Jul 2, 2019

DOI: 10.17352/amp.000004

M Apostol*

Department of Theoretical Physics, Institute of Atomic Physics, Magurele-Bucharest MG-6, POBox MG-35, Romania

Abstract

It is shown that the quantized internal motion of the black holes consists of Planck quanta (Planck mass, length, time, etc), which may be called black quanta. The mass of the black hole is a integral multiple of the Planck mass, and the radius of the black hole (Schwarzschild radius) is an integral multiple of the Planck length. This circumstance arises from the proportionality of the black hole radius and mass. The statistical physics and the thermodynamics of the black holes are derived herein from the statistical motion of the black quanta.

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How to Cite

Apostol, M. (2019). Black quanta. On the thermodynamics of the black holes. Annals of Mathematics and Physics, 2(1), 005–006. https://doi.org/10.17352/amp.000004

Issue

Vol. 2 No. 1 (2019)

Section

Research Articles

Copyright & License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Schutz BF (1985) A first course in general relativity. Cambridge University Press, Cambridge. Link: https://bit.ly/208FpIN

Wald RM (1994) Quantum field theory in curved spacetime and black hole thermodynamics (Chicago lectures in physics). The University of Chicago Press, Chicago. Link: https://bit.ly/2YqI192

Apostol M (2008) Covariance, curved space, motion and quantization. Progr Phys 1: 90. Link: https://bit.ly/2XkXqWW

Hawking SW (1975) Particle creation by black holes. Commun Math Phys 43: 199-220. Link: https://bit.ly/2LvZGZ9

Hawking S (1971) Gravitational radiation from colliding black holes. Phys Rev Lett 26: 1344. Link: https://bit.ly/2KTeP7E

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