Two-flavor lattice QCD simulation in the epsilon-regime with exact chiral symmetry
Abstract
We perform lattice simulations of two-flavor QCD using Neuberger's overlap fermion, with which the exact chiral symmetry is realized at finite lattice spacings. The epsilon-regime is reached by decreasing the light quark mass down to 3 MeV on a 163 32 lattice with a lattice spacing 0.11 fm. We find a good agreement of the low-lying Dirac eigenvalue spectrum with the analytical predictions of the chiral random matrix theory, which reduces to the chiral perturbation theory in the epsilon-regime. The chiral condensate is extracted as (2 GeV) = (251(7)(11) MeV)3, where the errors are statistical and an estimate of the higher order effects in the epsilon-expansion.
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