Generalized Proper-Time Approach For The Case Of Broken Isospin Symmetry
Abstract
We present a derivation of the low-energy effective meson Lagrangian of the Nambu -- Jona-Lasinio (NJL) model on the basis of Schwinger's proper-time regularization of the one-loop fermion determinant. We consider the case in which the SU(2)× SU(2) chiral symmetry of the NJL Lagrangian is broken by the current quark mass matrix with mumd. The non-degeneracy of d and u masses destroys one of the most crucial features of the proper-time expansion -- the chiral-invariant structure of Seeley -- DeWitt coefficients. We show however that systematic resummations inside the proper-time expansion are still possible and derive a result which is in full agreement with the chiral Ward -- Takahashi identities.
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