First inverse kinematics study of the Ne22(p,γ)Na23 reaction and its role in AGB star and classical nova nucleosynthesis

arXiv: Nuclear Experiment Pub Date : 2019-10-03 DOI:10.1103/physrevc.102.035801

M. Williams, M. Williams, A. Lennarz, A. Laird, U. Battino, J. José, D. Connolly, C. Ruiz, A. Chen, B. Davids, B. Davids, N. Esker, B. Fulton, R. Garg, U. Greife, U. Hager, D. Hutcheon, M. Lovely, S. Lyons, S. Lyons, A. Psaltis, J. Riley, A. Tattersall

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引用次数: 4

Abstract

The abundances of sodium and oxygen are observed to be anti-correlated in all well-studied globular clusters. Asymptotic giant branch (AGB) stars undergoing hot bottom burning (HBB) are thought to be prime candidates for producing sodium-rich oxygen-poor material and expelling it into the cluster ISM. The 22Ne(p,gamma)23Na reaction has been shown to strongly influence the amount of 23Na produced during HBB. This reaction is also important for classical novae nucleosynthesis, with sensitivity studies showing that the abundances of several isotopes in the Ne-Al region are significantly altered when varying the reaction rate between available compilations. Here we present the first inverse kinematics measurements of key resonances strengths as well as the direct capture S-factor. Together, this study represents the largest centre of mass energy range (149-1222 keV) over which this reaction has been measured in a single experiment. Our results for low-energy resonances at Ecm=149, 181 and 248 keV are in good agreement with recent forward kinematics results; we also find a direct capture S-factor consistent with the literature value of 62 keV.b. However, in the case of the important reference resonance at Ecm = 458 keV we find a strength value of wg=0.44 +/- 0.02 eV, which is significantly lower than recent results. Using our new recommended rate we explore the impact of these results on both AGB star and classical novae nucleosynthesis. In the case of AGB stars we see very little abundance changes with respect to the rate included in the STARLIB-2013. However, we observe changes of up to a factor of 2 in isotopes produced in both the carbon-oxygen (CO) and oxygen-neon (ONe) classical novae models considered here. The 22Ne(p,gamma)23Na reaction rate is now sufficiently well constrained to not significantly contribute toward abundance uncertainties from classical novae nucleosynthesis models.

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首次研究了Ne22(p，γ)Na23反应及其在AGB星和经典新星核合成中的作用

在所有经过充分研究的球状星团中，钠和氧的丰度被观察到是反相关的。经过热底燃烧(HBB)的渐近巨星分支(AGB)被认为是产生富钠贫氧物质并将其排出星团ISM的主要候选者。22Ne(p， γ)23Na反应对HBB过程中产生的23Na数量有很大影响。该反应对经典新星核合成也很重要，灵敏度研究表明，当不同的反应速率不同时，Ne-Al区的几种同位素的丰度会发生显著变化。在这里，我们提出了关键共振强度的第一个逆运动学测量以及直接捕获s因子。总之，这项研究代表了该反应在单一实验中测量到的最大质能中心范围(149-1222 keV)。我们在Ecm=149、181和248 keV处的低能共振结果与最近的正运动学结果吻合得很好;我们还发现了一个与文献值62 k .b一致的直接捕获s因子。然而，在Ecm = 458 keV的重要参考共振的情况下，我们发现强度值wg=0.44 +/- 0.02 eV，这明显低于最近的结果。利用我们新的推荐速率，我们探索了这些结果对AGB恒星和经典新星核合成的影响。在AGB恒星的情况下，我们看到的丰度变化很小，相对于STARLIB-2013中包含的速率。然而，我们观察到在这里考虑的碳氧(CO)和氧氖(ONe)经典新星模型中产生的同位素变化高达2倍。22Ne(p， γ)23Na反应速率现在已经得到了充分的限制，不会对经典新星核合成模型的丰度不确定性产生显著影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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