QCD thermodynamics at zero and finite densities with improved Wilson   quarks

K. Kanaya; S. Aoki; S. Ejiri; T. Hatsuda; N. Ishii; Y. Maezawa; H.; Ohno; H. Saito; N. Ukita; T. Umeda (WHOT-QCD Collaboration)

arXiv:1008.3218·hep-lat·March 10, 2011

QCD thermodynamics at zero and finite densities with improved Wilson quarks

K. Kanaya, S. Aoki, S. Ejiri, T. Hatsuda, N. Ishii, Y. Maezawa, H., Ohno, H. Saito, N. Ukita, T. Umeda (WHOT-QCD Collaboration)

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TL;DR

This paper reports on lattice QCD studies at finite temperatures and densities using improved Wilson quarks, focusing on N_F=2 and N_F=2+1 flavors with different computational approaches.

Contribution

It introduces new results on QCD thermodynamics with improved Wilson quarks and discusses the development of the T-integration method for fixed-scale studies.

Findings

01

Results on N_F=2 QCD at zero and finite densities.

02

Progress on N_F=2+1 QCD using the fixed-scale approach.

03

Implementation of the T-integration method.

Abstract

The WHOT-QCD Collaboration is pushing forward lattice studies of QCD at finite temperatures and densities using improved Wilson quarks. We first present results on QCD at zero and finite densities with two flavors of degenerate quarks (N_F=2 QCD) adopting the conventional fixed-Nt approach. We then report on the status of a study of N_F=2+1 QCD adopting a fixed-scale approach armed with the T-integration method which we have developed.

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