The effect of the chiral chemical potential on the chiral phase transition in the NJL model with different regularization schemes

Abstract

We study the chiral phase transition in the presence of the chiral chemical potential μ5 using the two-flavor Nambu--Jona-Lasinio model. In particular, we analyze the reason why one can obtain two opposite behaviors of the chiral critical temperature as a function of μ5 in the framework of different regularization schemes. We compare the modifications of the chiral condensate and the critical temperature due to μ5 in different regularization schemes, analytically and numerically. Finally, we find that, for the conventional hard-cutoff regularization scheme, the increasing dependence of the critical temperature on the chiral chemical potential is an artifact, which is caused by the fact that it does not include complete contribution from the thermal fluctuations. When the thermal contribution is fully taken into account, the chiral critical temperature should decrease with μ5.