The 13N(d,n)14O Reaction and the Astrophysical 13N(p,g)14O Reaction Rate

Abstract

13N(p,γ)14O is one of the key reactions in the hot CNO cycle which occurs at stellar temperatures around T9 ≥ 0.1. Up to now, some uncertainties still exist for the direct capture component in this reaction, thus an independent measurement is of importance. In present work, the angular distribution of the 13N(d,n)14O reaction at Ec.m. = 8.9 MeV has been measured in inverse kinematics, for the first time. Based on the distorted wave Born approximation (DWBA) analysis, the nuclear asymptotic normalization coefficient (ANC), C^14O1,1/2, for the ground state of 14O 13N + p is derived to be 5.42 0.48 fm-1/2. The 13N(p,γ)14O reaction is analyzed with the R-matrix approach, its astrophysical S-factors and reaction rates at energies of astrophysical relevance are then determined with the ANC. The implications of the present reaction rates on the evolution of novae are then discussed with the reaction network calculations.