Mesons and diquarks in neutral color superconducting quark matter with β-equilibrium
Abstract
The spectrum of meson and diquark excitations in cold color-superconducting (2SC) quark matter is investigated under local color and electric neutrality constraints with β-equilibrium. A 2-flavored Nambu--Jona-Lasinio type model including a baryon μB, color μ8, and electric μQ chemical potentials is used. Two relations between coupling constants H and G in the diquark- and quark-antiquark channels, correspondingly, are treated, H=3G/4 and H=G. At H=3G/4 the gapless- and at H=G the gapped neutral color superconductivity is realized. It is shown that color and electrical neutrality together with β-equilibrium lead to a strong mass splitting within the pion isotriplet in the 2SC phase (both gapped and gapless), in contrast with non--neutral matter. It is also shown that the properties of the physical SU(2)c-singlet diquark excitation in the 2SC ground state varies for different parameterization schemes. Thus, for H=3G/4 one finds a heavy resonance with mass 1100 MeV in the non--neutral (gapped) case, whereas, if neutrality is imposed, a stable diquark with mass μQ 200 MeV appears in the gapless 2SC phase. For H=G, there is again a resonance (with the mass 300 MeV) in the neutral gapped 2SC phase. Hence, the existence of the stable massive SU(2)c-singlet diquark excitation is a new peculiarity of the gapless 2SC.
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