19F(p,γ)20Ne reaction rate and the puzzling calcium abundance in metal poor stars

Abstract

The 19F(p,γ)20Ne reaction is the only process to break out of the CNO cycle at temperature below 0.1 GK and may serve as the origin of calcium in first generation of stars after the Big Bang. In the recent measurement, the Jinping Underground Nuclear Experiment (JUNA) obtained the rate of 19F(p,γ)20Ne reaction, significantly larger than the previously recommended values. In this work, we perform the theoretical studies of the 19F(p,γ)20Ne reaction using the Gamow shell model in the coupled-channel representation (GSM-CC). At temperature around 0.1 GK, the predicted rate by GSM-CC is close to the rate found by JUNA. Thus, based on GSM-CC, the break-out reaction 19F(p,γ)20Ne from the CNO-cycle might win over its competing reaction 19F(p,α)16O, and produce enough calcium in the metal poor stars.

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