Abstract
The astrophysical p-process is an important way of nucleosynthesis to produce the stable and proton-rich nuclei beyond Fe which can not be reached by the s- and r-processes. In the present study, the impact of nuclear ingredients, especially the nuclear potential, level density and strength function, to the astrophysical re-action rates of (p,γ), (α,γ), (γ,p), and (γ,α) reactions are systematically studied. The calculations are performed basad on the modern reaction code TALYS for about 3000 stable and proton-rich nuclei with 12≤Z≤110. In particular, both of the Wood-Saxon potential and the microscopic folding potential are taken into account. It is found that both the capture and photonuclear reaction rates are very sensitive to the nuclear potential, thus the better determination of nuclear potential would be important to reduce the uncertainties of reaction rates. Meanwhile, the Extreme Light Infrastructure-Nuclear Physics (ELI-NP) facility is being developed, which will provide the great opportunity to experimentally study the photonuclear reactions in p-process. Simulations of the experimental setup for the measurements of the photonuclear reactions 96Ru(γ,p) and 96Ru(γ,α) are performed. It is shown that the experiments of photonuclear reactions in p-process based on ELI-NP are quite promising.
Highlights
In massive star evolution and stellar explosive site, the astrophysical p-process is an important way of nucleosynthesis to produce the stable and proton-rich nuclei beyond Fe which cannot be reached by the s- and r-processes
The main purpose of the present study is to systematically study how the nuclear structure ingredients, especially the nuclear level density, strength function, and optical model, impact the cross sections and reaction rates of capture and photo-disintegration reactions involving charged particles
3 Simulations of the experimental setup for the measurements of photonuclear reactions based on Extreme Light Infrastructure-Nuclear Physics (ELI-NP) facility
Summary
In massive star evolution and stellar explosive site, the astrophysical p-process is an important way of nucleosynthesis to produce the stable and proton-rich nuclei beyond Fe which cannot be reached by the s- and r-processes. To completely determine the nucleosynthesis of p-process, accurate knowledge of capture and photodisintegration reaction rates for the stable and proton-rich nuclei is essential. We perform the systematic computations of (p,γ), (α,γ), (γ,p), and (γ,α) reaction rates on about 3000 nuclei based on the TALYS software with various sets of nuclear structure ingredients.
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