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Anomalous transition strength in the proton-unbound nucleus (109)(53)I56

Authors :
Procter, M. G.
Cullen, D. M.
Scholey, C.
Ruotsalainen, P.
Angus, L.
Back, T.
Cederwall, B.
Dewald, A.
Fransen, C.
Grahn, T.
Greenlees, P. T.
Hackstein, M.
Jakobsson, U.
Jones, P. M.
Julin, R.
Juutinen, S.
Ketelhut, S.
Leino, M.
Liotta, R.
Lumley, N. M.
Mason, P. J. R.
Nieminen, P.
Nyman, M.
Pakarinen, J.
Pissulla, T.
Peura, P.
Rahkila, P.
Revill, J.
Rigby, S. V.
Rother, W.
Sandzelius, M.
Saren, J.
Sorri, J.
Taylor, M. J.
Uusitalo, J.
Wady, P.
Qi, C.
Xu, F. R.
Procter, M. G.
Cullen, D. M.
Scholey, C.
Ruotsalainen, P.
Angus, L.
Back, T.
Cederwall, B.
Dewald, A.
Fransen, C.
Grahn, T.
Greenlees, P. T.
Hackstein, M.
Jakobsson, U.
Jones, P. M.
Julin, R.
Juutinen, S.
Ketelhut, S.
Leino, M.
Liotta, R.
Lumley, N. M.
Mason, P. J. R.
Nieminen, P.
Nyman, M.
Pakarinen, J.
Pissulla, T.
Peura, P.
Rahkila, P.
Revill, J.
Rigby, S. V.
Rother, W.
Sandzelius, M.
Saren, J.
Sorri, J.
Taylor, M. J.
Uusitalo, J.
Wady, P.
Qi, C.
Xu, F. R.
Publication Year :
2011

Abstract

A lifetime measurement has been made for the first excited 11/2(+) state in the proton-unbound nucleus (109)(53)I56 using the recoil-distance Doppler-shift method in conjunction with recoil-proton tagging. The experimental reduced transition probability is considerably smaller than the prediction of theoretical shell-model calculations using the CD-Bonn nucleon-nucleon potential. The discrepancy between the theoretical and experimental reduced transition strengths in this work most likely arises from the inability of the current shell-model calculations to accurately account for the behavior of the unbound nuclear states. Crown Copyright (C) 2011 Published by Elsevier B.V. All rights reserved.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1364948637
Document Type :
Electronic Resource

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