On meson spectral functions at high temperature and nonzero momentum

Gert Aarts; Simon Hands; Seyong Kim; Jose M. Martinez Resco

arXiv:hep-lat/0509062·hep-lat·September 1, 2016

On meson spectral functions at high temperature and nonzero momentum

Gert Aarts, Simon Hands, Seyong Kim, Jose M. Martinez Resco

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TL;DR

This paper explores the structure of meson spectral functions at high temperature and nonzero momentum in QCD, providing theoretical insights and a reference for lattice studies using the Maximal Entropy Method.

Contribution

It discusses characteristics of meson spectral functions at infinite temperature and reports on ongoing quenched QCD work with staggered fermions.

Findings

01

Meson spectral functions exhibit nontrivial structures at high temperature.

02

Provides a theoretical reference point for lattice QCD studies.

03

Ongoing work with quenched QCD and staggered fermions.

Abstract

In the high-temperature phase of QCD meson spectral functions at nonzero momentum are expected to have a nontrivial and interesting structure. In order to provide a reference point for lattice studies employing e.g. the Maximal Entropy Method, we discuss several characteristics of meson spectral functions in the infinite-temperature limit. We report on ongoing work in quenched QCD with staggered fermions.

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