Add to ORKGWe have performed the first calculations to follow the evolution of all stable nuclei and their radioactive progenitors in a finely-zoned stellar model computed from the onset of central hydrogen burning through explosion as a Type II supernova. Calculations were done for 15 M-circle dot, 20 M-circle dot, and 25 M-circle dot Pop I stars using the most recently available set of experimental and theoretical nuclear data, revised opacity tables, and taking into account mass loss due to stellar winds. Here results are presented for one 15 M-circle dot model.Peer reviewe
The final evolution and explosion of stars from 10 M/sub solar/ to 10/sup 6/ M/sub solar/ are review...
Properties of atomic nuclei important for the prediction of astrophysical reaction rates are reviewe...
Observational evidence for rotationally induced mixing in massive stars is summarized. From these ob...
We have performed the first calculations to follow the evolution of all stable nuclei and their radi...
We have performed the first calculations to follow the evolution of all stable nuclei and their radi...
We present the first calculations to follow the evolution of all stable isotopes and their abundant ...
We present the first calculations to follow the evolution of all stable nuclei and their radioactive...
We present the first calculations to follow the evolution of all stable nuclei and their radioactive...
The nucleosynthetic yield of isotopes lighter than A = 66 (zinc) is determined for a grid of stellar...
We present nucleosynthesis results form calculations that follow the evolution of massive stars from...
This overview discusses issues relevant to modeling nucleosynthesis in type II supernovae and implic...
We present a nucleosynthesis calculation of a 25 M-circle dot star of solar composition that include...
Preliminary results of a new set of stellar evolution and nucleosynthesis calculations for massive s...
This overview discusses issues relevant to modeling nucleosynthesis in type II supernovae and implic...
The critical nuclear physics needed to calculate the evolution of and nucleosynthesis in massive sta...
The final evolution and explosion of stars from 10 M/sub solar/ to 10/sup 6/ M/sub solar/ are review...
Properties of atomic nuclei important for the prediction of astrophysical reaction rates are reviewe...
Observational evidence for rotationally induced mixing in massive stars is summarized. From these ob...
We have performed the first calculations to follow the evolution of all stable nuclei and their radi...
We have performed the first calculations to follow the evolution of all stable nuclei and their radi...
We present the first calculations to follow the evolution of all stable isotopes and their abundant ...
We present the first calculations to follow the evolution of all stable nuclei and their radioactive...
We present the first calculations to follow the evolution of all stable nuclei and their radioactive...
The nucleosynthetic yield of isotopes lighter than A = 66 (zinc) is determined for a grid of stellar...
We present nucleosynthesis results form calculations that follow the evolution of massive stars from...
This overview discusses issues relevant to modeling nucleosynthesis in type II supernovae and implic...
We present a nucleosynthesis calculation of a 25 M-circle dot star of solar composition that include...
Preliminary results of a new set of stellar evolution and nucleosynthesis calculations for massive s...
This overview discusses issues relevant to modeling nucleosynthesis in type II supernovae and implic...
The critical nuclear physics needed to calculate the evolution of and nucleosynthesis in massive sta...
The final evolution and explosion of stars from 10 M/sub solar/ to 10/sup 6/ M/sub solar/ are review...
Properties of atomic nuclei important for the prediction of astrophysical reaction rates are reviewe...
Observational evidence for rotationally induced mixing in massive stars is summarized. From these ob...