Quark-gluon plasma phenomenology from anisotropic lattice QCD

Jon-Ivar Skullerud; Gert Aarts; Chris Allton; Alessandro Amato; Yannis; Burnier; P. Wynne M. Evans; Pietro Giudice; Simon Hands; Tim Harris; Aoife; Kelly; Seyong Kim; Maria Paola Lombardo; Mehmet B. Oktay; Alexander Rothkopf,; Sin\'ead M. Ryan

arXiv:1501.00018·nucl-th·January 5, 2015·2 cites

Quark-gluon plasma phenomenology from anisotropic lattice QCD

Jon-Ivar Skullerud, Gert Aarts, Chris Allton, Alessandro Amato, Yannis, Burnier, P. Wynne M. Evans, Pietro Giudice, Simon Hands, Tim Harris, Aoife, Kelly, Seyong Kim, Maria Paola Lombardo, Mehmet B. Oktay, Alexander Rothkopf,, Sin\'ead M. Ryan

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TL;DR

This paper reports on lattice QCD simulations exploring quark-gluon plasma properties at high temperatures, focusing on electrical conductivity, charge diffusion, and heavy quarkonium behavior.

Contribution

It presents new results from anisotropic lattice QCD simulations on quark-gluon plasma characteristics at nonzero temperature.

Findings

01

Electrical conductivity and charge diffusion results

02

Heavy quarkonium physics insights

03

Progress in anisotropic lattice QCD simulations

Abstract

The FASTSUM collaboration has been carrying out simulations of N_f=2+1 QCD at nonzero temperature in the fixed-scale approach using anisotropic lattices. Here we present the status of these studies, including recent results for electrical conductivity and charge diffusion, and heavy quarkonium (charm and beauty) physics.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions · Cold Atom Physics and Bose-Einstein Condensates