18-24 June 2017
Palacio de Congresos
Europe/Madrid timezone
Contribution Parallel
Auditorio Manuel de Falla
Nonzero Temperature and Density
Equation of state in (2+1)-flavor QCD at physical point with improved Wilson fermion action using gradient flow
Speakers
- Prof. Kazuyuki KANAYA
Primary authors
- Prof. Kazuyuki KANAYA (Universityof Tsukuba)
Co-authors
- Dr. Shinji EJIRI (Niigata University)
- Dr. Ryo IWAMI (Niigata Univ.)
- Prof. Masakiyo KITAZAWA (Osaka University)
- Prof. Hiroshi SUZUKI (Kyushu Univ.)
- Dr. Yusuke TANIGUCHI (University of Tsukuba)
- Prof. Takashi UMEDA (Hiroshima Univ.)
Files
Content
We study the energy-momentum tensor and the equation of state as well as the chiral condensate in (2+1)-flavor QCD at the physical point applying the method of Makino and Suzuki based on the gradient flow. Following a strategy of our previous study at a heavier quark mass, we adopt a nonperturbatively O(a)-improved Wilson quark action and the renormalization group-improved Iwasaki gauge action and perform finite-temperature simulations in the range T $\simeq$ 155 - 544 MeV (Nt = 4-14 including odd numbers) at $a \simeq 0.09$ fm based on the fixed-scale approach using zero-temperature physical point configurations generated by the PACS-CS Collaboration. We present preliminary results obtained so far.
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Nonzero Temperature and Density
