Experimental study of Cl35 excited states via S32(α,p)

IF 3.2 2区物理与天体物理 Q2 PHYSICS, NUCLEAR

Physical Review C Pub Date : 2019-05-21 DOI:10.1103/PhysRevC.99.055812

K. Setoodehnia, J. Kelley, C. Marshall, F. Chaves, R. Longland

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引用次数: 3

Abstract

Presolar grains originating in oxygen-neon novae may be identified by their sulfur isotopic ratios compared with theoretical estimates. These ratios depend on reliable $^{33}$S($p, \gamma$)$^{34}$Cl and $^{34}$S($p, \gamma$)$^{35}$Cl reaction rates. The latter rate has recently been computed based on experimental input, and many new excited states in $^{35}$Cl were discovered above the proton threshold. The experimental $^{34}$S($p, \gamma$)$^{35}$Cl rate was found to be 2 - 5 times smaller than the theoretical one, and the simulated $^{34}$S/$^{32}$S isotopic ratio for nova presolar grains was thus predicted to be smaller than that of type II supernova grains by up to a factor of 3.7. The present study was performed to confirm the existence of these new resonances, and to improve the remaining uncertainties in the $^{34}$S($p, \gamma$)$^{35}$Cl reaction rate. Energies and spin-parities of the $^{35}$Cl excited levels were investigated with an Enge split-pole spectrograph using the $^{32}$S($\alpha, p$)$^{35}$Cl reaction. Differential cross sections of the outgoing protons were measured at $E_{\alpha}$ = 21 MeV. The existence of the newly discovered states are largely confirmed, although a few states were not observed in this study. The spins and parities of several $^{35}$Cl states were assigned tentatively for the first time. The present $^{34}$S($p, \gamma$)$^{35}$Cl experimental thermonuclear reaction rate is consistent within 1$\sigma$ with the previous evaluation. However, our rate uncertainty is larger due to a more realistic treatment of the experimental uncertainties. The uncertainty in the present rate is up to a factor of 3.5 at nova temperatures. We recommend future work to focus on the unknown properties of four excited states of $^{35}$Cl at 6643 keV, 6761 keV, 6780 keV, and 6800 keV.

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S32(α，p)对Cl35激发态的实验研究

起源于氧氖新星的前太阳颗粒可以通过它们的硫同位素比值与理论估计相比较来识别。这些比率取决于可靠的$^{33}$ S($p, \gamma$) $^{34}$ Cl和$^{34}$ S($p, \gamma$) $^{35}$ Cl反应速率。后一种速率最近是根据实验输入计算出来的，并且在$^{35}$ Cl中发现了许多高于质子阈值的新激发态。实验得到的$^{34}$ S($p, \gamma$) $^{35}$ Cl速率比理论值小2 ～ 5倍，模拟得到的新星前太阳颗粒$^{34}$ S/ $^{32}$ S同位素比值比II型超新星颗粒小3.7倍。本研究是为了证实这些新共振的存在，并改善$^{34}$ S($p, \gamma$) $^{35}$ Cl反应速率中剩余的不确定性。利用$^{32}$ S($\alpha, p$) $^{35}$ Cl反应，用Enge分极谱仪研究了$^{35}$ Cl激发能级的能量和自旋对偶。在$E_{\alpha}$ = 21 MeV下测量了出射质子的微分截面。新发现的状态的存在在很大程度上得到了证实，尽管在本研究中没有观察到一些状态。首次初步确定了若干$^{35}$ Cl态的自旋和对偶。目前的$^{34}$ S($p, \gamma$) $^{35}$ Cl实验热核反应速率与之前的评价在1 $\sigma$以内一致。然而，由于对实验不确定性的处理更为现实，我们的速率不确定性更大。在新星温度下，目前速率的不确定性高达3.5倍。我们建议未来的工作集中在$^{35}$ Cl在6643 keV, 6761 keV, 6780 keV和6800 keV下的四个激发态的未知性质上。

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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来源期刊

Physical Review C PHYSICS, NUCLEAR-

CiteScore

5.80

自引率

35.50%

发文量

863

期刊介绍： Physical Review C (PRC) is a leading journal in theoretical and experimental nuclear physics, publishing more than two-thirds of the research literature in the field. PRC covers experimental and theoretical results in all aspects of nuclear physics, including: Nucleon-nucleon interaction, few-body systems Nuclear structure Nuclear reactions Relativistic nuclear collisions Hadronic physics and QCD Electroweak interaction, symmetries Nuclear astrophysics