Bound-to-continuum potential model for the (p,γ) reactions of the CNO cycle
Abstract
The study of CNO cycle involves the examination of the proton radiative capture, or the (p,γ) reactions below 2 MeV. The astrophysical S factor characterizing the (p,γ) reaction is usually reduced to the electric dipole transition E1 from the scattering state to the bound state. In this work, the partial scattering and the single-particle bound wave functions in the reduced matrix element of the transition are obtained from the single self-consistent mean-field potential deduced from the Skyrme Hartree-Fock calculation. The astrophysical S factors of the (p,γ) reactions in the CNO cycle were successfully reproduced. The self-consistent Hartree-Fock calculation from the discrete to the continuum is a promising approach for the microscopic analysis of the nucleon-induced reactions in nuclear astrophysics.
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