A relativistic model for the non-mesonic weak decay of the 12 C hypernucleus

Abstract

A fully relativistic finite nucleus wave-function approach to the non-mesonic weak decay of the 12 C hypernucleus is presented. The model is based on the calculation of the amplitudes of the tree-level Feynman diagrams for the N NN process and includes one-pion exchange and one-kaon exchange diagrams. The pseudo-scalar and pseudo-vector choices for the vertex structure are compared. Final-state interactions between each one of the outgoing nucleons and the residual nucleus are accounted for by a complex phenomenological optical potential. Initial N and final NN short-range correlations are included by means of phenomenological correlation functions. Numerical results are presented and discussed for the total non-mesonic decay width nm=n+p, the n/p ratio, the a intrinsic asymmetry parameter, and the kinetic energy and angular spectra.