High spin states in 105Ag

A Alkhatib,A K Singh,S C Pancholi,Ashok Kumar, A Buerger, L Chaturvedi, G Schoenwasser,G B Hagemann, C Ronn Hansen, R K Bhowmik,S Muralithar, G O Rodrigues,Zs Dombradi,Jozsef Gal, G Kalinka,Jozsef Molnar,B M Nyako,D Sohler,J Timar,L Zolnai,M Kmiecik,A Maj, J Styczen, Kazimierz Zuber, K Hauschild, A Korichi, A Lopezmartens, J Roccaz,S Siem, F Hannachi, J N Scheurer,P Bednarczyk, T Byrski,D Curien,O Dorvaux, G Duchene,B J P Gall, F Khalfallah, I Piqueras, J Robin,K Juhasz,Sagar Patel, A O Evans,G Rainovski,A Airoldi,Gianmario Benzoni,A Bracco,F Camera, B Million, P J R Mason, A Paleni,R Sacchi,O Wieland, C M Petrache, D Petrache,G La Rana,R Moro, G De Angelis, P Fallon,I Y Lee, J C Lisle,Bo Cederwall, K Lagergren,R M Lieder,E O Podsvirova,W Gast, H Jaeger,N Redon, A Goergen

Nuclear Physics A（1979）

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摘要

High spin states in 105Ag have been studied using the 103Rh(α, 2nγ)105Ag reaction. A collective band on the 92+ state at 53.2 keV and a negative parity band with spins ranging from 152 to 272 were observed. Furthermore a 152+ isomeric state with T12 = 6.0±0.2 ns at 1733.8 keV was identified. The g-factor deduced for this state is g = 0.58±0.06. A comparison of the experimental results with theoretical calculations indicates that the properties of most of the positive parity states are reasonably well described by the cluster-vibrational model as well as by the triaxial rotator model.

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Nuclear reactions

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