Gamow-Teller strength distributions at finite temperatures and electron capture in stellar environments

Abstract

We propose a new method to calculate stellar weak-interaction rates. It is based on the Thermo-Field-Dynamics formalism and allows the calculation of the weak-interaction response of nuclei at finite temperatures. The thermal evolution of the GT+ distributions is presented for the sample nuclei 54, 56Fe and ~76,78,80Ge. For Ge we also calculate the strength distribution of first-forbidden transitions. We show that thermal effects shift the GT+ centroid to lower excitation energies and make possible negative- and low-energy transitions. In our model we demonstrate that the unblocking effect for GT+ transitions in neutron-rich nuclei is sensitive to increasing temperature. The results are used to calculate electron capture rates and are compared to those obtained from the shell model.