Measurement of the 25Al(d,n)26Si reaction and impact on the 25Al(p,γ)26Si reaction rate

Abstract

The 25Al(p,γ)26Si reaction is part of a reaction network with impact on the observed galactic 26Al abundance. A new determination of the proton strength of the lowest =0 proton-resonance in 26Si is required to more precisely calculate the thermal reaction rate. To this end, the 25Al(d,n)26Si proton-transfer reaction is measured in inverse kinematics using an in-flight radioactive beam at the RESOLUT facility. Excitation energies of the lowest 26Si proton resonances are measured and cross sections are determined for the lowest =0 resonance associated with the 3+3 state at 5.92(2) MeV. Coupled reaction channels (CRC) calculations using FRESCO are performed to extract the =0 spectroscopic factor for the 3+3 state. The proton width for the 3+3 state in 26Si is determined to be p=2.19(45) eV and the (p,γ) resonance strength for the 3+3 state is extracted as 26(10) meV. This resonance dominates the 25Al(p,γ)26Si reaction rate above 0.2 GK.