Massive Fermion Emission from Higher Dimensional Black Holes

Marek Rogatko; Agnieszka Szyp{\l}owska

arXiv:0904.4544·hep-th·August 14, 2016

Massive Fermion Emission from Higher Dimensional Black Holes

Marek Rogatko, Agnieszka Szyp{\l}owska

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TL;DR

This paper investigates how extra dimensions influence the emission of massive Dirac fermions from higher-dimensional black holes, calculating absorption cross sections and Hawking radiation luminosity in a low-energy regime.

Contribution

It provides a detailed analysis of fermion emission in (4+n)-dimensional black holes, including both bulk and brane emissions, with explicit calculations of absorption cross sections and luminosity.

Findings

01

Absorption cross section calculated for massive fermions.

02

Luminosity of Hawking radiation derived in low-energy limit.

03

Differences observed between bulk and brane emission processes.

Abstract

We study the effect of extra dimensions on the process of massive Dirac fermion emission in the spacetime of (4+n)-dimensional black hole, by examining the Dirac operator in arbitrary spacetime dimension. We comment on both bulk and brane emission and find absorption cross section and luminosity of Hawking radiation in the low-energy approximation.

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