Searching for resonance states in 22Ne(p,γ)23Na

Abstract

Background: Globular clusters show strong correlations between different elements, such as the well-known sodium-oxygen anticorrelation. One of the main sources of uncertainty in this anticorrelation is the 22Ne(p,γ)23Na reaction rate, due to the possible influence of an unobserved resonance state at Ex = 8862 keV (Er, c.m. = 68 keV). The influence of two higher-lying resonance states at Ex = 8894 and 9000 keV has already been ruled out by direct 22Ne(p,γ)23Na measurementsPurpose: To study excited states in 23Na above the proton threshold to determine if the unconfirmed resonance states in 23Na exist. Methods: The non-selective proton inelastic scattering reaction at low energies was used to search for excited states in 23Na above the proton threshold. Protons scattered from various targets were momentum-analysed in the Q3D magnetic spectrograph at the Maier-Leibnitz Laboratorium, Munich, Germany. Results: The resonance states previously reported at Ex = 8862, 8894 and 9000 keV in other experiments were not observed in the present experiment at any angle. This result, combined with other non-observations of these resonance states in most other experiments, results in a strong presumption against the existence of these resonance states. Conclusions: The previously reported resonance states at Ex = 8862, 8894 and 9000 keV are unlikely to exist and should be omitted from future evaluations of the 22Ne(p,γ)23Na reaction rates. Indirect studies using low-energy proton inelastic scattering are a simple and yet exceptionally powerful tool in helping to constrain astrophysical reaction rates by providing non-selective information of the excited states of nuclei.