High-spin level structure of 35S

High-spin level structure of 35S

The nucleus 35S has been studied by in-beam γ-ray spectroscopy using the 24Mg(14N,3p) fusion-evaporation reaction at Elab=40 MeV. A level scheme extended up to Jπ=17/2+ at 8023 keV and Jπ=13/2− at 6352 keV has been established. Lifetimes of six excited states have been determined by applying the Dop...

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Veröffentlicht in:Physical review. C 2014, Vol.89
Hauptverfasser: Aydin, S., Ionescu-Bujor, M., Recchia, F., M. Lenzi, S., Bouhelal, M., Bazzacco, D., G. Bizzeti, P., M. Bizzeti-Sona, A., de Angelis, G., Deloncle, I., Farnea, E., Gadea, A., Gottardo, A., Haas, F., Huyuk, T., Laftchiev, H., Lunardi, S., Mengoni, D., Menegazzo, R., Michelagnoli, C., R. Napoli, D., Poves, A., Sahin, E., P. Singh, P., Tonev, D., Ur, C.A., Valiente-Dobón, J.J.
Format: Artikel
Sprache:eng
Schlagworte:
Nuclear Experiment
Physics
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Zusammenfassung:The nucleus 35S has been studied by in-beam γ-ray spectroscopy using the 24Mg(14N,3p) fusion-evaporation reaction at Elab=40 MeV. A level scheme extended up to Jπ=17/2+ at 8023 keV and Jπ=13/2− at 6352 keV has been established. Lifetimes of six excited states have been determined by applying the Doppler shift attenuation method. The experimental data have been compared with the results of large-scale shell model calculations performed using different effective interactions and model spaces allowing particle-hole excitations across the N=Z=20 shell gap.
ISSN:2469-9985
2469-9993
DOI:10.1103/PhysRevC.89.014310