Gravitational phase transition of fermionic matter in a general relativistic framework - INSPIRE

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Gravitational phase transition of fermionic matter in a general relativistic framework

Neven Bilic
(
- Boskovic Inst., Zagreb
)
,
Raoul D. Viollier
(
- Cape Town U.
)

Sep, 1998

19 pages

Published in:

Eur.Phys.J.C 11 (1999) 173-180

e-Print:

hep-ph/9809563 [hep-ph]

DOI:

View in:

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Abstract:

The Thomas-Fermi model at finite temperature is extended to describe a system of self-gravitating weakly interacting massive fermions in a general-relativistic framework. By cooling a nondegenerate gas of weakly interacting massive fermions below some critical temperature, a condensed phase emerges, consisting of quasidegenerate fermion stars. For fermion masses of 10 to 25 keV, these fermion stars may very well provide an alternative explanation for the supermassive compact dark objects that are observed at galactic centers.

fermion: massive
fermion: weak interaction
critical phenomena: finite temperature
general relativity
fermion: matter
temperature
energy: density
fermion number
entropy: density
numerical calculations

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