Target excitation and angular momentum transfer in reactions of E/A=11.9 MeV Si28 with Ta181 from 4 charged particle, neutron, and -ray multiplicity measurements

Z. Majka, V. Abenante, Z. Li, N. G. Nicolis, D. G. Sarantites, T. M. Semkow, L. G. Sobotka, D. W. Stracener, J. R. Beene, D. C. Hensley, H. C. Griffin

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Abstract

The conversion of kinetic energy into target-like fragment excitation and orbital angular momentum into fragment spin has been studied in the reaction 333 MeV Si28 with Ta181. The light charged particles were detected in a small, highly segmented, 4 phoswich detector system placed in the spin spectrometer, a 4 NaI array which served as a neutron and gamma detector. Multiplicities of light charged particles and neutrons detected in coincidence with projectile-like fragments indicate that the excitation energy of the target-like fragment increases as the kinetic energy of the projectile-like fragment decreases through the quasielastic region and tends toward saturation as the kinetic energy of the projectile-like fragment approaches the kinetic energy corresponding to complete damping. Measurement of the -ray multiplicity in coincidence with the projectile-like fragments indicates that the angular momentum transferred to the target-like fragment increases with decreasing mass of the projectile-like fragment for the quasielastic energy region in contrast to the energy region corresponding to completely damped processes where the angular momentum of the target-like fragment decreases with increasing mass loss from the projectile. The influence of preequilibrium processes on both excitation energy and angular momentum transfer to the target-like fragment is discussed. These data present further evidence that l waves below the entrance-channel critical angular momentum for fusion must contribute to the nonfusing reaction channels.

Original languageEnglish
Pages (from-to)2124-2136
Number of pages13
JournalPhysical Review C - Nuclear Physics
Volume40
Issue number5
DOIs
StatePublished - 1989
Externally publishedYes

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