Asymptotic thermal quark masses and the entropy of QCD in the large-Nf limit

Jean Paul Blaizot; Andreas Ipp; Anton Rebhan; Urko Reinosa

doi:10.1103/PhysRevD.72.125005

Asymptotic thermal quark masses and the entropy of QCD in the large-Nf limit

Jean Paul Blaizot
, Andreas Ipp
, Anton Rebhan
, Urko Reinosa

Research output: Contribution to journal › Article › peer-review

Abstract

We study the thermodynamics of QCD in the limit of large flavor number (Nf) and test the proposal to resum the physics of hard thermal loops (HTL) through a nonperturbative expression for the entropy obtained from a Φ-derivable two-loop approximation. The fermionic contribution to the entropy involves a full next-to-leading order evaluation of the asymptotic thermal quark mass, which is nonlocal, and for which only a weighted average value was known previously. For a natural choice of renormalization scale we find remarkably good agreement of the next-to-leading order HTL results for the fermion self-energy and in turn for the entropy with the respective exact large-Nf results, even at very large coupling.

Original language	English
Article number	125005
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	72
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevD.72.125005
Publication status	Published - 15 Dec 2005
Externally published	Yes

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title = "Asymptotic thermal quark masses and the entropy of QCD in the large-Nf limit",

abstract = "We study the thermodynamics of QCD in the limit of large flavor number (Nf) and test the proposal to resum the physics of hard thermal loops (HTL) through a nonperturbative expression for the entropy obtained from a Φ-derivable two-loop approximation. The fermionic contribution to the entropy involves a full next-to-leading order evaluation of the asymptotic thermal quark mass, which is nonlocal, and for which only a weighted average value was known previously. For a natural choice of renormalization scale we find remarkably good agreement of the next-to-leading order HTL results for the fermion self-energy and in turn for the entropy with the respective exact large-Nf results, even at very large coupling.",

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AU - Blaizot, Jean Paul

AU - Ipp, Andreas

AU - Rebhan, Anton

AU - Reinosa, Urko

PY - 2005/12/15

Y1 - 2005/12/15

N2 - We study the thermodynamics of QCD in the limit of large flavor number (Nf) and test the proposal to resum the physics of hard thermal loops (HTL) through a nonperturbative expression for the entropy obtained from a Φ-derivable two-loop approximation. The fermionic contribution to the entropy involves a full next-to-leading order evaluation of the asymptotic thermal quark mass, which is nonlocal, and for which only a weighted average value was known previously. For a natural choice of renormalization scale we find remarkably good agreement of the next-to-leading order HTL results for the fermion self-energy and in turn for the entropy with the respective exact large-Nf results, even at very large coupling.

AB - We study the thermodynamics of QCD in the limit of large flavor number (Nf) and test the proposal to resum the physics of hard thermal loops (HTL) through a nonperturbative expression for the entropy obtained from a Φ-derivable two-loop approximation. The fermionic contribution to the entropy involves a full next-to-leading order evaluation of the asymptotic thermal quark mass, which is nonlocal, and for which only a weighted average value was known previously. For a natural choice of renormalization scale we find remarkably good agreement of the next-to-leading order HTL results for the fermion self-energy and in turn for the entropy with the respective exact large-Nf results, even at very large coupling.

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JF - Physical Review D - Particles, Fields, Gravitation and Cosmology

IS - 12

M1 - 125005

ER -

Asymptotic thermal quark masses and the entropy of QCD in the large-Nf limit

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