We present results from the JINA REACLIB project, an ongoing effort to maintain a current and accurate library of thermonuclear reaction rates for astrophysical applications. Ongoing updates are transparently documented and version tracked, and any set of rates is publicly available and can be downloaded via a Web interface at http://groups.nscl.msu.edu/jina/reaclib/db/. We discuss here our library V1.0, a snapshot of recommended rates for stable and explosive hydrogen and helium burning. We show that the updated reaction rates lead to modest but significant changes in full network, one-dimensional X-ray burst model calculations, compared with calculations with previously used reaction rate sets. The late time behavior of X-ray burst light ...
Proton-induced reaction rates on 26 stable and 29 unstable target nuclei in the mass A = 20–40 regio...
Nucleosynthesis occurs in such diverse astrophysical phenomena as ordinary stars, like our own Sun, ...
Type I X-ray bursts are the most common explosions in the Galaxy; however, the nucleosynthesis that ...
We examine the sensitivity of nucleosynthesis in Type I X-ray bursts to variations in nuclear rates....
First steps have been taken in a more comprehensive study of the dependence of observables in Type I...
Explosive hydrogen burning in type I X-ray bursts (XRBs) comprise charged particle reactions creatin...
Multizone models of Type I X-ray bursts are presented that use an adaptive nuclear reaction network ...
Stellar reaction rates for proton captures on the nuclei 27Si, 31S, 35Ar, and 39Ca are estimated fro...
The thermonuclear rate of the Ti-42(p, gamma)V-43 reaction has been reevaluated based on a recent pr...
Type I X-ray bursts are thermonuclear explosions that occur in the envelopes of accreting neutron st...
First steps have been taken in a more comprehensive study of the dependence of observables in Type I...
Type I X-ray bursts (XRBs) are thermonuclear stellar explosions driven by charged-particle reactions...
Type-I X-ray bursts are frequently occurring thermonuclear runaways on the surface of an accreting n...
X-ray bursts are thermonuclear flashes on the surface of accreting neutron stars, and reliable burst...
Nucleosynthesis in type I X-ray bursts may involve up to several thousand nuclear processes. The maj...
Proton-induced reaction rates on 26 stable and 29 unstable target nuclei in the mass A = 20–40 regio...
Nucleosynthesis occurs in such diverse astrophysical phenomena as ordinary stars, like our own Sun, ...
Type I X-ray bursts are the most common explosions in the Galaxy; however, the nucleosynthesis that ...
We examine the sensitivity of nucleosynthesis in Type I X-ray bursts to variations in nuclear rates....
First steps have been taken in a more comprehensive study of the dependence of observables in Type I...
Explosive hydrogen burning in type I X-ray bursts (XRBs) comprise charged particle reactions creatin...
Multizone models of Type I X-ray bursts are presented that use an adaptive nuclear reaction network ...
Stellar reaction rates for proton captures on the nuclei 27Si, 31S, 35Ar, and 39Ca are estimated fro...
The thermonuclear rate of the Ti-42(p, gamma)V-43 reaction has been reevaluated based on a recent pr...
Type I X-ray bursts are thermonuclear explosions that occur in the envelopes of accreting neutron st...
First steps have been taken in a more comprehensive study of the dependence of observables in Type I...
Type I X-ray bursts (XRBs) are thermonuclear stellar explosions driven by charged-particle reactions...
Type-I X-ray bursts are frequently occurring thermonuclear runaways on the surface of an accreting n...
X-ray bursts are thermonuclear flashes on the surface of accreting neutron stars, and reliable burst...
Nucleosynthesis in type I X-ray bursts may involve up to several thousand nuclear processes. The maj...
Proton-induced reaction rates on 26 stable and 29 unstable target nuclei in the mass A = 20–40 regio...
Nucleosynthesis occurs in such diverse astrophysical phenomena as ordinary stars, like our own Sun, ...
Type I X-ray bursts are the most common explosions in the Galaxy; however, the nucleosynthesis that ...