Critical endpoint of finite temperature phase transition for three flavor QCD

Abstract

We investigate the critical endpoint of finite temperature phase transition of Nf=3 QCD at zero chemical potential. We employ the renormalization-group improved Iwasaki gauge action and non-perturbatively O(a)-improved Wilson-clover fermion action. The critical endpoint is determined by using the intersection point of kurtosis for the temporal size Nt=4, 6, 8. Spatial sizes of Nl=6-16 (Nt=4), 10-24 (Nt=6), and 12-24 (Nt=8) are employed. We find that Nt=4 is out of the scaling region. Using results for Nt=6 and 8, and making linear extrapolations in 1/Nt2, we obtain t0T E=0.0975(14)(8), t0m PS,E=0.2254(52)(105) and m PS,E/T E=2.311(63)(13), where the first error is statistical error, the second error is systematic error, and m PS is the pseudo scalar meson mass. If one uses 1/t0=1.347(30) GeV reported by Borsanyi et al., one finds T E=131(2)(1)(3) MeV, m PS,E=304(7)(14)(7) MeV and m PS,E/m PS,E phys, sym=0.739(17)(34)(17), where the third error comes from error of t0 and m PS phys, sym=(mπ2+2mK2)/3. Our current estimation of t0m PS,E in the continuum limit is about 25% smaller than the SU(3) symmetric point.