The pseudoscalar glueball in a chiral Lagrangian model with instanton effect

Abstract

We study the pseudoscalar glueball candidates in a chiral effective Lagrangian model proposed by 't hooft, motived by taking into account the instanton effects, which can describe not only the chiral symmetry breaking, but also the solution of UA(1). We study the parameter space allowed by constraints from vacuum conditions and unitary bounds. By considering two scenarios in 0++ sector, we find that parameter space which can accommodate the 0-+ sector is sensitive to the conditions in 0++ sector. From our analysis, it is found that three η states, i.e. η(1295), η(1405), η(1475), can be glueball candidates if we assume that the lightest 0++ glueball has a mass 1710 MeV. While there is no 0-+ glueball candidate found in experiments if we assume that the lightest 0++ glueball has a mass 660 MeV.