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Quantum Black Holes: A Critical Analysis
by Y. Leblanc (eFieldTheory.COM)

Paperback: 256 pages
Publisher: CreateSpace (April 15, 2010)
ISBN-10: 1450542980
ISBN-13: 978-1450542982
List Price: $39.95 (USD)

This book presents an in-depth critical analysis of Bekenstein-Hawking Black Hole Thermodynamics. It also reviews the work of the Belinski group showing the non-existence of the Unruh and Hawking effects. These analyses lead to the collapse of Hawking's theory of black holes as thermal objects, leading to the breakdown of both the Area law and the Holographic principle. Quantum black holes are instead identified as pure state resonances (Gamow states) at the Planck scale.

Quantum Black Holes: A Critical Analysis
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No Bose-Einstein Condensation in Bosonic Ideal Gases
22 December 2015

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Author: Y. Leblanc (eFieldTheory.COM)


We analyze in greater details a recently found and well behaved generic thermal distribution for small (finite) non-interacting systems which keeps track of the maximum occupational number allowed by quantum statistics. This generic distribution, which resolves the pathologies of the traditional Bose-Einstein distribution, actually describes various systems such as bosons and fermions, as well as para-bosons and para-fermions of general order p. It is proved that, for such a distribution, Bose-Einstein condensation (BEC) does not occur for bosonic or para-bosonic ideal gases. BEC can only occur in the context of interacting systems. Instead a new picture emerges incorporating particle and hole excitations for all statistics.

Copyright © 2015 Yvan Leblanc. All rights reserved

PACS: 05.30.Ch, 03.70.+k, 11.10.Gh

Cite as: Leblanc, Y., "No Bose-Einstein Condensation in Bosonic Ideal Gases", manuscript no. eFTC-151201 (2015).; doi:10.13140/RG.2.1.2196.7444.

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