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Direct measurement of low-energy Ne22(p,γ)Na23 resonances

R. Depalo et al. (LUNA Collaboration)
Phys. Rev. C 94, 055804 – Published 21 November 2016

Abstract

Background: The Ne22(p,γ)Na23 reaction is the most uncertain process in the neon-sodium cycle of hydrogen burning. At temperatures relevant for nucleosynthesis in asymptotic giant branch stars and classical novae, its uncertainty is mainly due to a large number of predicted but hitherto unobserved resonances at low energy.

Purpose: A new direct study of low-energy Ne22(p,γ)Na23 resonances has been performed at the Laboratory for Underground Nuclear Astrophysics (LUNA), in the Gran Sasso National Laboratory, Italy.

Method: The proton capture on Ne22 was investigated in direct kinematics, delivering an intense proton beam to a Ne22 gas target. γ rays were detected with two high-purity germanium detectors enclosed in a copper and lead shield suppressing environmental radioactivity.

Results: Three resonances at 156.2 keV [ωγ=(1.48±0.10)×107 eV], 189.5 keV [ωγ=(1.87±0.06)×106 eV] and 259.7 keV [ωγ=(6.89±0.16)×106 eV] proton beam energy, respectively, have been observed for the first time. For the levels at Ex=8943.5, 8975.3, and 9042.4 keV excitation energy corresponding to the new resonances, the γ-decay branching ratios have been precisely measured. Three additional, tentative resonances at 71, 105, and 215 keV proton beam energy, respectively, were not observed here. For the strengths of these resonances, experimental upper limits have been derived that are significantly more stringent than the upper limits reported in the literature.

Conclusions: Based on the present experimental data and also previous literature data, an updated thermonuclear reaction rate is provided in tabular and parametric form. The new reaction rate is significantly higher than previous evaluations at temperatures of 0.08–0.3 GK.

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  • Received 31 August 2016

DOI:https://doi.org/10.1103/PhysRevC.94.055804

©2016 American Physical Society

Physics Subject Headings (PhySH)

Gravitation, Cosmology & AstrophysicsNuclear Physics

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Vol. 94, Iss. 5 — November 2016

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