English

Phase transition from quark-meson coupling hyperonic matter to deconfined quark matter

Nuclear Theory 2010-02-17 v2
Authors: J. D. Carroll , D. B. Leinweber , A. W. Thomas , A. G. Williams
View on arXiv PDF DOI

Abstract

We investigate the possibility and consequences of phase transitions from an equation of state (EOS) describing nucleons and hyperons interacting via mean fields of sigma, omega, and rho mesons in the recently improved quark-meson coupling (QMC) model to an EOS describing a Fermi gas of quarks in an MIT bag. The transition to a mixed phase of baryons and deconfined quarks, and subsequently to a pure deconfined quark phase, is described using the method of Glendenning. The overall EOS for the three phases is calculated for various scenarios and used to calculate stellar solutions using the Tolman-Oppenheimer-Volkoff equations. The results are compared with recent experimental data, and the validity of each case is discussed with consequences for determining the species content of the interior of neutron stars.

Keywords

qcd deconfinement quark matter in neutron stars quantum phase transition

Cite

@article{arxiv.0809.0168,
  title  = {Phase transition from quark-meson coupling hyperonic matter to deconfined quark matter},
  author = {J. D. Carroll and D. B. Leinweber and A. W. Thomas and A. G. Williams},
  journal= {arXiv preprint arXiv:0809.0168},
  year   = {2010}
}

Comments

12 pages, 14 figures; minor typos corrected

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