Beyond-mean-field calculations of allowed and first-forbidden β- decays of r-process waiting-point nuclei

Abstract

β-decay rates of neutron-rich nuclei, in particular those located at neutron shell closures, play a central role in simulations of the heavy-element nucleosynthesis and resulting abundance distributions. We present β-decay half-lives of even-even N=82 and N=126 r-process waiting-point nuclei calculated in the approach based on relativistic quasiparticle random phase approximation with quasiparticle-vibration coupling. The calculations include both allowed and first-forbidden transitions. In the N=82 chain, the quasiparticle-vibration coupling has an important impact close to stability, as it increases the contribution of Gamow-Teller modes and improves the agreement with the available data. In the N=126 chain, we find the decay to proceed dominantly via first-forbidden transitions, even when the coupling to vibrations is included.