Baryonium, tetra-quark state and glue-ball in large Nc QCD

Abstract

From the large-Nc QCD point of view, baryonia, tetra-quark states, hybrids, and glueballs are studied. The existence of these states is argued for. They are constructed from baryons. In Nf=1 large Nc QCD, a baryonium is always identical to a glueball with Nc valence gluons. The ground state 0-+ glueball has a mass about 2450 MeV. f0(1710) is identified as the lowest 0++ glueball. The lowest four-quark nonet should be f0(1370), a0(1450), K*0(1430) and f0(1500). Combining with the heavy quark effective theory, spectra of heavy baryonia and heavy tetra-quark states are predicted. 1/Nc corrections are discussed.