Classical-Nova Contribution to the Milky Way's 26Al Abundance: Exit Channel of the Key 25Al(p,γ)26Si Resonance

Abstract

Classical novae are expected to contribute to the 1809-keV Galactic γ-ray emission by producing its precursor 26Al, but the yield depends on the thermonuclear rate of the unmeasured 25Al(p,γ)26Si reaction. Using the β decay of 26P to populate the key Jπ=3+ resonance in this reaction, we report the first evidence for the observation of its exit channel via a 1741.6 0.6 (stat) 0.3 (syst) keV primary γ ray, where the uncertainties are statistical and systematic, respectively. By combining the measured γ-ray energy and intensity with other experimental data on 26Si, we find the center-of-mass energy and strength of the resonance to be Er = 414.9 0.6(stat) 0.3 (syst) 0.6(lit.) keV and ωγ = 23 6 (stat)+11-10(lit.) meV, respectively, where the last uncertainties are from adopted literature data. We use hydrodynamic nova simulations to model 26Al production showing that these measurements effectively eliminate the dominant experimental nuclear-physics uncertainty and we estimate that novae may contribute up to 30% of the Galactic 26Al.