η-η mixing

Abstract

The η -η mixing mass term due to the derivative coupling SU(3)× SU(3) symmetry breaking term, produces an additional momentum-dependent pole term for processes with η, but is suppressed in the η amplitude by a factor mη2/mη^2. This seems to be the origin of the two-angle description of the pseudo-scalar decay constants used in the literature. In this paper, by diagonalizing both the mixing mass term and the momentum-dependent mixing term, we show that the η -η system could be described by a meson field renormalization and a new mixing angle θ which differs from the usual mixing angle θP by a small momentum-dependent mixing d term. This new mixing scheme with exact treatment of the momentum-dependent mixing term, is actually simpler than the perturbation treatment and should be used in any determination of the η -η mixing angle and the momentum-dependent mixing term. Assuming nonet symmetry for the η0 singlet amplitude, from the sum rules relating θ and d to the measured vector meson radiative decays amplitudes, we obtain consistent solutions with θ=-(13.99 3.1), d=0.12 0.03 from ηγ and ηγ decays, for ω , θ=-(15.47 3.1), d=0.11 0.03, and for φ, θ=-(12.66 2.1), d=0.10 0.03. It seems that vector meson radiative decays would favor a small η-η mixing angle and a small momentum-dependent mixing term.