QCD phase diagram at small densities from simulations with imaginary mu

Abstract

We review our results for the QCD phase diagram at baryonic chemical potential muB ≤ pi T. Our simulations are performed with an imaginary chemical potential muI for which the fermion determinant is positive. For 2 flavors of staggered quarks, we map out the phase diagram and identify the pseudo-critical temperature Tc(muI). For muI/T ≤ pi/3, this is an analytic function, whose Taylor expansion is found to converge rapidly, with truncation errors far smaller than statistical ones. The truncated series may then be continued to real mu, yielding the corresponding phase diagram for muB 500 MeV. This approach provides control over systematics and avoids reweighting. We outline our strategy to find the (2+1)-flavor critical point.

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