Marco Pignatari, Kathrin Göbel, René Reifarth, Claudia Travaglio
Published 2016-05-12Version 1
Beyond iron, a small fraction of the total abundances in the Solar System is made of proton-rich isotopes, the p nuclei. The clear understanding of their production is a fundamental challenge for nuclear astrophysics. The p nuclei constrain the nucleosynthesis in core-collapse and thermonuclear supernovae. The $\gamma$ process is the most established scenario for the production of the p nuclei, which are produced via different photodisintegration paths starting on heavier nuclei. A large effort from nuclear physics is needed to access the relevant nuclear reaction rates far from the valley of stability. This review describes the production of the heavy proton-rich isotopes by the $\gamma$ process in stars, and explores the state of the art of experimental nuclear physics to provide nuclear data for stellar nucleosynthesis.
Comments: 51 pages, 14 figures, invited review
Journal: International Journal of Modern Physics E, Vol. 25, No. 4 (2016) 1630003
Uncertaities due to convection and production of s-nuclei in massive stars
Impact of a revised $^{25}$Mg(p,$γ$)$^{26}$Al reaction rate on the operation of the Mg-Al cycle
Silicon carbide grains of type C provide evidence for the production of the unstable isotope $^{32}$Si in supernovae
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