Abstract
We present initial results of a numerical investigation of the chiral symmetry restoring transition in the (3+1)-dimensional Nambu – Jona-Lasinio model with both non-zero baryon chemical potential ( μ B ≠ 0 ) and isospin chemical potential ( μ I ≠ 0 ). With non-zero isospin chemical potential, the model suffers from a sign problem. We proceed in two ways: ( i ) We perform “partially quenched” simulations in which μ I is made non-zero only during the measurement of chiral observables; ( ii ) We perform full simulations with imaginary isospin chemical potential with the aim to analytically continue results to real μ I .
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