Sensitivity of Type I X-ray bursts to rp-process reaction rates

Abstract

First steps have been taken in a more comprehensive study of the dependence of observables in Type I X-ray bursts on uncertain (p,g ) reaction rates along the rp -process path. We use the multizone hydrodynamics code KEPLER which implicitly couples a full nuclear reaction network of more than 1000 isotopes, as needed, to follow structure and evolution of the X-ray burst layer and its ashes. This allows us to incorporate the full rp -process network, including all relevant nuclear reactions, and individually study changes in the X-ray burst light curves when modifying selected key nuclear reaction rates. In this work we considered all possible proton captures to nuclei with 10 < Z < 28 and N ≤ Z. When varying individual reaction rates within a symmetric full width uncertainty of a factor of 104, early results for some rates show changes in the burst light curve as large as 10 percent of peak luminosity. This change is large enough to be detectable by current X-ray burst light curve observations. More precise reaction rates are therefore needed to test current X-ray burst models, particularly of the burst rise, with observational data and to constrain astrophysical parameters. © Copyright owned by the author(s).