Proton-unbound states in 24 Al relevant for the 23 Mg(p,γ) reaction in novae
Abstract
Background: The nucleosynthesis of several proton-rich nuclei is determined by radiative proton-capture reactions on unstable nuclei in nova explosions. One such reaction is 23 Mg(p,γ)24 Al, which links the NeNa and MgAl cycles in oxygen-neon (ONe) novae. Purpose: To extract 23 Mg(p,γ) resonance strengths from a study of proton-unbound states in 24 Al, produced via the 24Mg(3He,t) reaction. Methods: A beam of 3 He2+ ions at 50.7 MeV was used to produce the states of interest in 24Al. Proton-triton angular correlations were measured with a K=600 QDD magnetic spectrometer and a silicon detector array, located at iThemba LABS, South Africa. Results: We measured the excitation energies of the four lowest proton-unbound states in 24Al and place lower-limits on p/ values for these four states. Together with shell-model calculations of partial gamma widths, the experimental data are also used to determine resonance strengths for the three lowest 23 Mg(p,γ)24 Al resonances. Conclusions: The energy of the dominant first 23 Mg(p,γ) resonance is determined to be Er = 478 4 keV, with a resonance strength ω γ = 19 9 meV.
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