18-24 June 2017
Palacio de Congresos
Europe/Madrid timezone
Contribution Parallel
Auditorio Manuel de Falla
Nonzero Temperature and Density
Lattice Study of QCD Phase Structure by Canonical Approach
Speakers
- Mr. Denis BOYDA
Primary authors
- Dr. Vitaly BORNYAKOV (Institute for High Energy Physics NRC Kurchatov Institute)
- Dr. Alexander MOLOCHKOV (Far Eastern Federal University)
- Dr. Atsushi NAKAMURA (Far Eastern Federal University)
- Dr. Valentin ZAKHAROV (Institute of Theoretical and Experimental Physics NRC Kurchatov Institute)
- Mr. Denis BOYDA (Far Eastern Federal University)
- Mr. Vladimir GOY (Far Eastern Federal University)
- Mr. Aleksandr NIKOLAEV (Institute for Theoretical and Experimental Physics NRC ”Kurchatov Institute”)
Content
The canonical approach is a powerful tool to circumvent sign problem in LQCD. Although it has its own difficulties it provides opportunity to determine QCD phase transition line. Using improved Wilson fermions we calculated number density at nonzero imaginary chemical potential for confinement and deconfinement phases, restored canonical partition functions Zn and did extrapolation into the real chemical potential region. We computed the higher moments of the baryon number including the kurtosis, and compared our results with information from relativistic heavy ion collision experiments.
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Nonzero Temperature and Density
