Masses of vector bosons in two-color dense QCD based on the hidden local symmetry

Abstract

We construct a low energy effective Lagrangian for the two-color QCD including the "vector" bosons (mesons with JP=1- and diquark baryons with JP=1+) in addition to the pseudo Nambu-Goldstone bosons with a degenerate mass Mπ (mesons with JP=0- and baryons with JP=0+) based on the chiral symmetry breaking pattern of SU(2Nf) Sp(2Nf) in the framework of the hidden local symmetry. We investigate the dependence of the "vector" boson masses on the baryon number density μB. We show that the μB-dependence signals the phase transition of U(1)B breaking. We find that it gives information about mixing among "vector" bosons: e.g. the mass difference between and ω mesons is proportional to the mixing strength between the diquark baryon with JP=1+ and the anti-baryon. We discuss the comparison with lattice data for two-color QCD at finite density.