A Ginzburg-Landau model of knotted flux-tube and glueball-like fJ mesons

Abstract

A dual Ginzburg-Landau model of the knotted chromo-electric flux-tube is revisited, in which the covariant decomposition of gluon field and the random phase approximation are used. It is shown that the SU(2) QCD vacuum is of type-II superconductor, with the Ginzburg-Landau parameter = 3, being independent of the magnetic condensate and strong coupling used, and consistent with the lattice data. The mass spectrum of a number of fJ meson states with J≤ 2, which are taken to be of glue dominate, are computed with help of the energies of the knotted(linked) QCD fluxtubes. The low-lying fJ states (leq 1.7GeV) are shown to be associated with the string excitations of the types 212 and K=31 in knot topologies.