33Cl Spectroscopic Factors via the 32S(3He, d)33Cl One-Proton Transfer Reaction

The structure of light-to-medium mass nuclei is crucial to understand exotic phenomena in nuclear structure, including the appearance of molecular effects in light nuclei and their impact in nuclear astrophysics. In this paper, a new experiment to probe one-proton spectroscopic factors of bound and...

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Veröffentlicht in:	Journal of physics. Conference series 2023-03, Vol.2453 (1), p.012002
Hauptverfasser:	Cinausero, M, Dell’Aquila, D, Lombardo, I, Vigilante, M, Barlini, S, Bolzonella, R, Bruno, M, Buccola, A, Cartuan, S, Casini, G, Cicerchia, M, D’Andrea, M, Degerlier, M, Fabris, D, Gasques, L, Gramegna, F, Lepine-Szily, A, Mantovani, G, Marchi, T, Piantelli, S, Rigato, V, Scomparin, L, Valdrè, S
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Sprache:	eng
Schlagworte:	Angular distribution Angular resolution Molecular structure Nuclear astrophysics Nuclear structure Nuclei Physics Protons Spectroscopy
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creator	Cinausero, M Dell’Aquila, D Lombardo, I Vigilante, M Barlini, S Bolzonella, R Bruno, M Buccola, A Cartuan, S Casini, G Cicerchia, M D’Andrea, M Degerlier, M Fabris, D Gasques, L Gramegna, F Lepine-Szily, A Mantovani, G Marchi, T Piantelli, S Rigato, V Scomparin, L Valdrè, S
description	The structure of light-to-medium mass nuclei is crucial to understand exotic phenomena in nuclear structure, including the appearance of molecular effects in light nuclei and their impact in nuclear astrophysics. In this paper, a new experiment to probe one-proton spectroscopic factors of bound and unbound states in the sd-nucleus 33Cl is discussed. The experiment exploits the reaction 32S(3He, d)33Cl* at 9.68 MeV bombarding energy. This reaction is suitable to probe the single-particle structure of 33Cl states with respect to the population of 1d3/2, 1f7/2 and 2p3/2 shells. Crucial aspects of the investigation are the use of an enriched, high-purity, 32S target and a new generation hodoscope with improved angular resolution, allowing to obtain high-precision angular distribution of the differential cross section in a broad angular range. Results are interpreted by means of finite-range DWBA and coupled-channel calculations.
doi_str_mv	10.1088/1742-6596/2453/1/012002
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subjects	Angular distribution Angular resolution Molecular structure Nuclear astrophysics Nuclear structure Nuclei Physics Protons Spectroscopy
title	33Cl Spectroscopic Factors via the 32S(3He, d)33Cl One-Proton Transfer Reaction
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