Flavor-dependent U(3) Nambu Jona Lasinio coupling constant

Abstract

A non-perturbative one gluon exchange quark-antiquark interaction is considered to compute flavor dependent U(3) Nambu-Jona-Lasinio (NJL)-type interaction of the form Gij, ( λi ) ( λj ) for i,j=0...8 and =I, i γ5 from one loop polarization process with non degenerate u-d-s quark effective masses. The resulting NJL-type coupling constants in all channels are resolved in the long-wavelength limit and numerical results are presented for different choices of an effective gluon propagator. Leading deviations with respect to a flavor symmetric coupling constant are found to be of the order of (Mf2*-Mf1*)n/(Mf2*+Mf1*)n, for n=1,2, where Mfi* are the effective masses of quarks f1,f2=u, d and s. The scalar channel coupling constants Gij, s can be considerably smaller than pseudoscalar ones. The effect of the flavor-dependence of coupling constants for the masses of pions and kaons may be nearly of the same order of magnitude as the effect of the u,d and s quark mass non-degeneracy. The effect of these coupling constants is also verified for some of the light scalar mesons masses, usually described by quark-antiquark states, and for some observables of the pseudoscalar mesons.