Where is the pseudoscalar glueball ?

Abstract

The pseudoscalar mesons with the masses higher than 1 GeV are assumed to belong to the meson decuplet including the glueball as the basis state supplementing the standard SU(3)F nonet of light qq states (u,d,s). The decuplet is investigated by means of an algebraic approach based on hypothesis of vanishing the exotic SU(3)F commutators of "charges" and their time derivatives. These commutators result in a system of equations determining contents of the isoscalar octet state in the physical isoscalar mesons as well as the mass formula including all masses of the decuplet: π(1300), K(1460), η(1295), η(1405) and η(1475). The physical isoscalar mesons ηi, are expressed as superpositions of the "ideal" qq states (N and S) and the glueball G with the mixing coefficient matrix following from the exotic commutator restrictions. Among four one-parameter families of the calculated mixing matrix (numerous solutions result from bad quality of data on the π(1300) and K(1460) masses) there is one family attributing the glueball-dominant composition to the η(1405) meson. Similarity between the pseudoscalar and scalar decuplets, analogy between the whole spectra of the 0-+ and 0++ mesons and affinity of the glueball with excited qq states are also noticed.