Neutrino-nucleus reactions on 16O based on new shell-model Hamiltonians

Abstract

Neutrino-induced reactions on 16O are investigated by shell-model calculaions with new shell-model Hamiltonians, which can describe well the structure of p-shell and p-sd shell nuclei. Distribution of the spin-dipole strengths in 16O, which give major contributions to the -16O reaction cross sections, is studied with the new Hamiltonians. Muon-capture reaction rates on 16O are also studied to discuss the quenching of the axial-vector coupling in nuclear medium. Charged-current and neutral-current reaction cross sections are evaluated in various particle and γ emission channels as well as the total ones at neutrino energies up to E≈ 100 MeV. Branching ratios for the various channels are obtained by the Hauser-Feshbach statistical model calculations, and partial cross sections for single- and multi-particle emission channels are evaluated. The cross sections updated are compared with previous continuum random phase approximation (CRPA) calculations. Effects of multi-particle emission channels on nucleosynthesis in core-collapse supernova (SN) explosions are investigated. Inclusion of αp emission channels is found to lead to an enhancement of production yields of 11B and 11C through 16O (, ' αp) 11B and 16O (, e- αp) 11C reactions, respectively.