Constraining the 30P(p,γ)31S reaction rate in ONe novae via the weak, low-energy, β-delayed proton decay of 31Cl

Abstract

The 30P(p,γ)31S reaction plays an important role in understanding nucleosynthesis of A≥ 30 nuclides in oxygen-neon novae. The Gaseous Detector with Germanium Tagging was used to measure 31Cl β-delayed proton decay through the key Jπ=3/2+, 260-keV resonance. The intensity I260β p = 8.3+1.2-0.9 × 10-6 represents the weakest β-delayed, charged-particle emission ever measured below 400 keV, resulting in a proton branching ratio of p / = 2.5+0.4-0.3 × 10-4. By combining this measurement with shell-model calculations for γ and past work on other resonances, the total 30P(p,γ)31S rate has been determined with reduced uncertainty. The new rate has been used in hydrodynamic simulations to model the composition of nova ejecta, leading to a concrete prediction of 30Si/28Si excesses in presolar nova grains and the calibration of nuclear thermometers.