Proton-to-Alpha branching ratio in the 12C+12C fusion reaction at astrophysical energies

Abstract

The unique resonance features in the 12C+12C fusion reaction lead to significant fluctuations in the branching ratio Rp/α=σp/σα, making it difficult to determine the Rp/α at astrophysical energies. By combining Hauser--Feshbach statistical-model calculations with constraints from direct charged-particle and gamma-ray measurements, we investigate the energy dependence of the averaged Rp/α and predict its behavior within the Gamow window. Owing to the strong energy dependence of Rp/α, the corresponding reaction-rate ratios, σv p / σv α, during core and shell carbon burning are determined to be 0.29, 0.45, and 0.52 at T9 = 0.5, 1.0, and 1.2, respectively, significantly lower than the widely adopted CF88 constant value of 0.79. The implications of the revised σv p / σv α ratio for stellar nucleosynthesis and white-dwarf evolution are also discussed.