Coincidence studies of heavy fragments in deeply inelastic collisions between heavy ions: Sequential fission probability in reactions of 730-MeV 86Kr with Au

Details Coincidence studies of heavy fragments in deeply inelastic collisions between heavy ions: Sequential fission probability in reactions of 730-MeV 86Kr with Au Coincidence studies of heavy fragments in deeply inelastic collisions between heavy ions: Sequential fission probability in reactions of 730-MeV 86Kr with Au

Jan 1979

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1979phrvc..19...54r&link_type=abstract

Physical Review C (Nuclear Physics), Volume 19, Issue 1, January 1979, pp.54-61

Physics

Nuclear Physics

9

Scientific paper

Angular correlations have been measured between heavy fragments in 86KR + 197Au reactions using two gas telescopes. The data have been analyzed to yield a separation of two-body from multibody events. The assumption that sequential fission accounts for all multibody breakup allows the determination of sequential fission probability as a function of inelastic energy transfer. Comparison to fission excitation functions for similar heavy compound nuclei provides insight into the deposition of energy and angular momentum. For -Q of ~ 200 MeV or E* ~ 140 MeV typical spin values of 30-40ℏ can be estimated for the heavy (Aulike) fragments. NUCLEAR REACTIONS 197Au(86Kr,X), E=730-MeV, deeply inelastic collisions, measured fragment-fragment coincidences and correlations using two gas telescopes. Derived sequential fission probability as a function of inelastic energy transfer.

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