First measurement of the low-energy direct capture in 20Ne(p, γ)21Na and improved energy and strength of the Ecm = 368 keV resonance
Abstract
The 20Ne(p, γ)21Na reaction is the slowest in the NeNa cycle and directly affects the abundances of the Ne and Na isotopes in a variety of astrophysical sites. Here we report the measurement of its direct capture contribution, for the first time below Ecm = 352~keV, and of the contribution from the E cm = 368~keV resonance, which dominates the reaction rate at T=0.03-1.00~GK. The experiment was performed deep underground at the Laboratory for Underground Nuclear Astrophysics, using a high-intensity proton beam and a windowless neon gas target. Prompt γ rays from the reaction were detected with two high-purity germanium detectors. We obtain a resonance strength ω γ~=~(0.112 0.002 stat~~0.005 sys)~meV, with an uncertainty a factor of 3 smaller than previous values. Our revised reaction rate is 20\% lower than previously adopted at T < 0.1~GK and agrees with previous estimates at temperatures T ≥ 0.1~GK. Initial astrophysical implications are presented.
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