Equation of State for SU(3) Gauge Theory via the Energy-Momentum Tensor under Gradient Flow

Abstract

The energy density and the pressure of SU(3) gauge theory at finite temperature are studied by direct lattice measurements of the renormalized energy-momentum tensor obtained by the gradient flow. Numerical analyses are carried out with β=6.287--7.500 corresponding to the lattice spacing a= 0.013--0.061\,fm. The spatial (temporal) sizes are chosen to be Ns= 64, 96, 128 (Nτ=12, 16, 20, 22, 24) with the aspect ratio, 5.33 Ns/Nτ 8. Double extrapolation, a→ 0 (the continuum limit) followed by t→ 0 (the zero flow-time limit), is taken using the numerical data. Above the critical temperature, the thermodynamic quantities are obtained with a few percent precision including statistical and systematic errors. The results are in good agreement with previous high-precision data obtained by using the integral method.