I. Fission Probabilities, Fission Barriers, and Shell Effects. II. Particle Structure Functions

Jing, Kexing

doi:10.2172/760325

Title: I. Fission Probabilities, Fission Barriers, and Shell Effects. II. Particle Structure Functions

Thesis/Dissertation · Sat May 01 00:00:00 EDT 1999

DOI:https://doi.org/10.2172/760325· OSTI ID:760325

Jing, Kexing ^[1]

Univ. of California, Berkeley, CA (United States)

In Part I, fission excitation functions of osmium isotopes ^{185,186, 187, 189} Os produced in ³He +^{182,183, 184, 186}W reactions, and of polonium isotopes ^{209,210, 211, 212}Po produced in ³He/⁴He + ^{206, 207, 208}Pb reactions, were measured with high precision. These excitation functions have been analyzed in detail based upon the transition state formalism. The fission barriers, and shell effects for the corresponding nuclei are extracted from the detailed analyses. A novel approach has been developed to determine upper limits of the transient time of the fission process. The upper limits are constrained by the fission probabilities of neighboring isotopes. The upper limits for the transient time set with this new method are 15x 10^–21 sec and 25x 10^–21 sec for 0s and Po compound nuclei, respectively. In Part II, we report on a search for evidence of the optical modulations in the energy spectra of alpha particles emitted from hot compound nuclei. The optical modulations are expected to arise from the ~-particle interaction with the rest of the nucleus as the particle prepares to exit. Some evidence for the modulations has been observed in the alpha spectra measured in the 3He-induced reactions, ³He + ^natAg in particular. The identification of the modulations involves a technique that subtracts the bulk statistical background from the measured alpha spectra, in order for the modulations to become visible in the residuals. Due to insufficient knowledge of the background spectra, however, the presented evidence should only be regarded as preliminary and tentative.

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Research Organization:: Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

DOE Contract Number:: AC03-76SF00098

OSTI ID:: 760325

Report Number(s):: LBNL-43410; R&D Project: 463001; TRN: US0005528

Resource Relation:: Other Information: TH: Thesis (Ph.D.); Submitted to University of California, Berkeley, CA (US); PBD: 24 May 1999

Country of Publication:: United States

Language:: English

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