Abstract
Abstract Nuclear reactions heat and cool the crust of accreting neutron stars and need to be understood to interpret observations of X-ray bursts and long-term cooling in transiently accreting systems. It was recently suggested that previously ignored neutron transfer reactions may play a significant role in the nuclear processes. We present results from full nuclear network calculations that now include these reactions and determine their impact on crust composition, crust impurity, heating, and cooling. We find that a large number of neutron transfer reactions indeed occur and impact crust models. In particular, we identify a new type of reaction cycle that brings a pair of nuclei across the nuclear chart into equilibrium via alternating neutron capture and neutron release, interspersed with a neutron transfer. While neutron transfer reactions lead to changes in crust model predictions and need to be considered in future studies, previous conclusions concerning heating, cooling, and compositional evolution are remarkably robust.
Highlights
We find that a large number of neutron transfer reactions occur and impact crust models
It was recently suggested that the proximity of the nuclei at the high densities in neutron star crusts can lead to neutron transfer reactions, where a neutron can be transferred from a nucleus to its neighbor (Chugunov 2019)
We implemented neutron transfer reactions according to Chugunov (2019) into the otherwise identical neutron star crust reaction network discussed in Lau et al (2018)
Summary
The crusts of transiently accreting neutron stars in X-ray binary systems cool over timescales of months during periods of quiescence, when the accretion turns off (Rutledge et al 2002; Cackett et al 2006; Shternin et al 2007; Brown & Cumming 2009). We present results from full nuclear network calculations that include these reactions and determine their impact on crust composition, crust impurity, heating, and cooling.
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