Single-neutron adding on \(^{34}\)S

IF 2.6 3区 物理与天体物理 Q2 PHYSICS, NUCLEAR The European Physical Journal A Pub Date : 2024-09-05 DOI:10.1140/epja/s10050-024-01399-z
A. N. Kuchera, C. R. Hoffman, G. Ryan, I. B. D’Amato, O. M. Guarinello, P. S. Kielb, R. Aggarwal, S. Ajayi, A. L. Conley, I. Conroy, P. D. Cottle, J. C. Esparza, S. Genty, K. Hanselman, M. Heinze, D. Houlihan, B. Kelly, M. I. Khawaja, E. Lopez-Saavedra, G. W. McCann, A. B. Morelock, L. A. Riley, A. Sandrik, V. Sitaraman, M. Spieker, E. Temanson, C. Wibisono, I. Wiedenhöver
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Abstract

Single-neutron adding data was collected in order to determine the distribution of the single-neutron strength of the \(0f_{7/2}\), \(1p_{3/2}\), \(1p_{1/2}\) and \(0f_{5/2}\) orbitals outside of \(Z=16, N=18\), \(^{34}\)S. The \(^{34}\)S(d,p)\(^{35}\)S reaction has been measured at 8 MeV/u to investigate cross sections to excited states in \(^{35}\)S. Outgoing proton yields and momenta were analyzed by the Super-Enge Split-Pole Spectrograph in conjunction with the CeBrA demonstrator located at the John D. Fox Laboratory at Florida State University. Angular distributions were compared with Distorted Wave Born Approximation calculations in order to extract single-neutron spectroscopic overlaps. Spectroscopic overlaps and strengths were determined for states in \(^{35}\)S up through 6 MeV in excitation energy. Each orbital was observed to have fragmented strength where a single level carried the majority. The single-neutron centroids of the \(0f_{7/2}\), \(1p_{3/2}\), \(1p_{1/2}\) and \(0f_{5/2}\) orbitals were determined to be \(2360^{+90}_{-40}\) keV, \(3280^{+80}_{-50}\) keV, \(4780^{+60}_{-40}\) keV, and \(\gtrsim 7500\) keV, respectively. A previous discrepancy in the literature with respect to the distribution of the neutron \(1p_{1/2}\) strength was resolved. The integration of the normalized spectroscopic strengths, up to 5.1 MeV in excitation energy, revealed fully-vacant occupancies for the \(0f_{7/2}\), \(1p_{3/2}\), and \(1p_{1/2}\) orbitals, as expected. The spacing in the single-neutron energies highlighted a reduction in the traditional \(N=28\) shell-gap, relative to both the 1p spin-orbit energy difference (\(N=32\)) and the lower limit on the \(N=34\) shell spacing.

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在 $$^{34}$ S 上的单中子加法
为了确定 \(Z=16, N=18\),\(^{34}\)S 轨道外的\(0f_{7/2}\)、\(1p_{3/2}\)、\(1p_{1/2}\)和\(0f_{5/2}\)轨道的单中子强度分布,收集了单中子添加数据。在 8 MeV/u 下测量了 \(^{34}\)S(d,p)\(^{35}\)S 反应,以研究 \(^{35}\)S 中激发态的截面。通过位于佛罗里达州立大学约翰-D-福克斯实验室的超级-恩格分极摄谱仪和 CeBrA 演示器分析了传出质子的产率和矩。将角度分布与扭曲波玻恩近似计算进行比较,以提取单中子光谱重叠。确定了激发能量高达 6 MeV 的 \(^{35}\)S 状态的光谱重叠和强度。观察到每个轨道都有碎裂强度,其中单级占大多数。确定了 \(0f_{7/2}\), \(1p_{3/2}\), \(1p_{1/2}\) 和 \(0f_{5/2}\) 轨道的单中子中心为 \(2360^{+90}_{-40}\) keV、\(3280^{+80}_{-50}\)keV、\(4780^{+60}_{-40}\)keV 和\(gtrsim 7500\) keV。解决了之前文献中关于中子(1p_{1/2})强度分布的差异问题。对激发能量高达 5.1 MeV 的归一化光谱强度的积分显示,\(0f_{7/2}\)、\(1p_{3/2}\)和\(1p_{1/2}\)轨道完全空位,正如预期的那样。相对于 1p 自旋轨道能差(\(N=32\))和\(N=34\)壳间距的下限,单中子能量的间距突显了传统\(N=28\)壳间隙的减小。
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来源期刊
The European Physical Journal A
The European Physical Journal A 物理-物理:核物理
CiteScore
5.00
自引率
18.50%
发文量
216
审稿时长
3-8 weeks
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