Lattice QCD at nonzero temperature and density

G. Aarts*, C. Allton, S. Hands, B. Jäger, S. Kim, M. P. Lombardo, A. A. Nikolaev, S. M. Ryan, J. I. Skullerud


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We discuss some selected recent developments in the field of lattice QCD at nonzero temperature and density, describing in particular the transition from the hadronic gas to the quark-gluon plasma, as seen in simulations using Wilson fermions.

BogserieJournal of Physics: Conference Series
StatusUdgivet - 28. mar. 2022
Begivenhed32nd IUPAP Conference in Computational Physics, CCP 2021 - Coventry, Virtual, Storbritannien
Varighed: 2. aug. 20215. aug. 2021


Konference32nd IUPAP Conference in Computational Physics, CCP 2021
ByCoventry, Virtual

Bibliografisk note

Funding Information:
Results presented in this work were obtained with support from STFC via grants ST/L000369/1 and ST/P00055X/1, the Swansea Academy for Advanced Computing, SNF, ICHEC, the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme under grant agreement No 813942. SK is supported by the National Research Foundation of Korea under grant NRF-2018R1A2A2A05018231 funded by the Korean government (MEST). AAN also acknowledges the support by RFBR grant 18-32-20172 mol a ved. We are grateful to DiRAC, HPC Wales, PRACE and Supercomputing Wales for the use of their computing resources. Results presented in this work were obtained using the PRACE Marconi-KNL resources hosted by CINECA, Italy and the DiRAC Extreme Scaling service and Blue Gene Q Shared Petaflop system at the University of Edinburgh operated by the Edinburgh Parallel Computing Centre. The DiRAC equipment is part of the UK’s National e-Infrastructure and was funded by UK’s BIS National e-infrastructure capital grant ST/K000411/1, STFC capital grants ST/H008845/1 and ST/R00238X/1, and STFC DiRAC Operations grants ST/K005804/1, ST/K005790/1 and ST/R001006/1.

Publisher Copyright:
© Published under licence by IOP Publishing Ltd.


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