1. Angular momentum population in the projectile fragmentation ofU238at750MeV∕nucleon
- Author
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Milena Mineva, H. J. Wollersheim, Margareta Hellström, M. La Commara, D. Sohler, V. Shishkin, Claes Fahlander, Yu. N. Kopatch, E. Kaza, Philip M Walker, C. Plettner, C. Scheidenberger, Dirk Rudolph, H. Weick, G. Benzoni, K. A. Gladnishki, H. Grawe, H. J. Boardman, A. Korgul, Jörgen Ekman, M. Górska, S.K. Mandal, Milan Matos, K. Sümmerer, P. H. Regan, O. Yordanov, Zs. Podolyák, J. Gerl, K.-H. Schmidt, M. Winkler, C. J. Pearson, J. J. Valiente-Dobón, Hans Geissel, A. Banu, and R. D. Page
- Subjects
Physics ,Nuclear and High Energy Physics ,Angular momentum ,education.field_of_study ,Nuclear Theory ,Population ,Fragmentation (computing) ,Nanosecond ,Nuclear physics ,Microsecond ,Physics::Atomic and Molecular Clusters ,Cutoff ,Atomic physics ,Nuclear Experiment ,Nucleon ,education ,Projectile fragmentation - Abstract
A systematic study of the population probabilities of nanosecond and microsecond isomers produced following the projectile fragmentation of U-238 at 750 MeV/nucleon has been undertaken at the SIS/FRS facility at GSI. Approximately 15 isomeric states in neutron-deficient nuclei around A similar to 190 were identified and the corresponding. isomeric ratios determined. The results are compared with a model based on the statistical abrasion-ablation description of relativistic fragmentation and simple assumptions concerning gamma cascades in the final nucleus (sharp cutoff). This model represents an upper limit for the population of isomeric states in relativistic projectile fragmentation. When the decay properties of the states above the isomer are taken into account, as opposed to the sharp cutoff approximation, a good agreement between the experimental and calculated angular momentum population is obtained.
- Published
- 2004