The Momentum Dependence of the $Ï-Ï$ Mixing Amplitude in a Hadronic Model
arXiv:nucl-th/9301002 · doi:10.1103/PhysRevC.47.R2462
Abstract
We calculate the momentum dependence of the $Ï-Ï$ mixing amplitude in a purely hadronic model. The basic assumption of the model is that the mixing amplitude is generated by $N{\bar{N}}$ loops and thus driven entirely by the neutron-proton mass difference. The value of the amplitude at the $Ï$-meson point is expressed in terms of only the $NNÏ$ and the $NNÏ$ coupling constants. Using values for these couplings constrained by empirical two-nucleon data we obtain a value for the mixing amplitude in agreement with experiment. Extending these results to the spacelike region, we find a $Ï-Ï$ contribution to the NN interaction that is strongly suppressed and opposite in sign relative to the conventional contribution obtained from using the constant on-shell value for the mixing amplitude.
11 pages, SCRI-122192