Direct measurement of 59Cu(p,α)56Ni precludes a strong NiCu cycle in Type-I X-ray bursts
Abstract
Model-observation comparisons of type-I X-ray bursts (XRBs) can reveal the properties of accreting neutron star systems, including the neutron star compactness. XRBs are powered by nuclear burning and a handful of reactions have been shown to impact the model results. Reactions in the NiCu cycles, featuring a competition between 59Cu(p,γ)60Zn and 59Cu(p,α)56Ni, have been shown to be among the most important reactions as they are a critical checkpoint in rp-process flow and significantly impact the light curves and burst ashes. We report a direct measurement of 59Cu(p,α)56Ni bringing stringent constraints on this reaction rate. New results rule out a strong NiCu cycle in XRBs, with a negligible degree of recycling, ≤5\% up to 1.5 GK. The new reaction rate, when varied within new uncertainty limits, shows no impact on one-zone XRB model light-curves tailored for clocked-burster GS 1826-24, hence removing an important nuclear physics uncertainty in the model-observation comparison.
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