Thermonuclear Reaction Rate of 30Si(p,γ)31P

Abstract

Silicon synthesis in high-temperature hydrogen burning environments presents one possible avenue for the study of abundance anomalies in globular clusters. This was suggested in a previous study, which found that the large uncertainties associated with the 30Si(p,γ)31P reaction rate preclude a firm understanding of the stellar conditions that give rise to the Mg-K anti-correlation observed in the globular cluster NGC 2419. In an effort to improve the reaction rate, we present new strength measurements of the Erlab = 435 keV and Erlab = 501 keV resonances in 30Si(p,γ)31P. For the former, which was previously unobserved, we obtain a resonance strength of ωγ = (1.28 0.25) × 10-4 eV. For the latter, we obtain a value of ωγ = (1.88 0.14) × 10-1 eV, which has a smaller uncertainty compared to previously measured strengths. Based on these results, the thermonuclear reaction rate has been re-evaluated. The impact of the new measurements is to lower the reaction rate by a factor of ≈10 at temperatures important to the study of NGC 2419. The rate uncertainty at these temperatures has also been reduced significantly.