Quenching of gamma0 transition results from p-wave neutron inducing doorway mechanism

Abstract

Gamma-strength function essentially distinguishes the reaction mechanisms of charged particle inelastic and neutron capture reactions, reflecting from the ratios of transition of neutron capture to low-lying states. The extraordinary quenching of gamma0 transition of p-wave neutron resonance reaction in 3s-region nucleus 57Fe is observed, for the first time, due to the non-forming 2p-1h doorway state activation which raises the strong intensities of gamma1 and gamma2. The enhancement of low energy gamma-strength function doesn't emerge in the neutron capture reaction resulting from the population of cascade transitions of low-lying states rather than primary transitions. The astrophysical reaction rates that are extracted from total and partial neutron capture cross sections of 57Fe might be adopted to constrain the abundance of the successive heavier isotopes in s-process.