Examination of static fission properties of 236U and 233Th using Cassinian oval parametrization within the macroscopic–microscopic approach

We have conducted a thorough analysis of the potential energy surfaces (PES) in 236 U and 233 Th using the Cassini-ovals parameterization within the macro–micro approach. We employed the state-of-the-art immersion water flow (IWF) method to study the saddles on four-dimensional energy grids encompas...

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Bibliographic Details
Published in:The European physical journal. A, Hadrons and nuclei Hadrons and nuclei, 2024-08, Vol.60 (8)
Main Authors: Jachimowicz, P., Capote, R., Kowal, M.
Format: Article
Language:English
Subjects:
Electric power grids
Fission
Hadrons
Heavy Ions
Nuclear Fusion
Nuclear Physics
Parameterization
Particle and Nuclear Physics
Physics
Physics and Astronomy
Potential energy
Regular Article–Theoretical Physics
Saddles
State-of-the-art reviews
Water flow
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Summary:We have conducted a thorough analysis of the potential energy surfaces (PES) in 236 U and 233 Th using the Cassini-ovals parameterization within the macro–micro approach. We employed the state-of-the-art immersion water flow (IWF) method to study the saddles on four-dimensional energy grids encompassing reflection-asymmetric shapes. For 233 Th, we computed the adiabatic potential energy surfaces by minimizing configurations with one blocked neutron within ten levels below and above the Fermi level. Our results show satisfactory agreement with empirical and experimental estimates for both nuclei, specifically regarding the first and second fission barriers. This suggests that our method holds promise in efficiently describing non-compact shapes while reducing the dimensionality of the space without sacrificing accuracy. Interestingly, employing Cassinian oval parameterization fails to reveal a pronounced, hyper-deformed third minimum in the potential energy landscape. Instead, only a shallow third minimum is observed for 233 Th, while in 236 U, this minimum ultimately vanishes. This finding holds significant importance when considering the modeling of fission cross-sections.
ISSN:1434-6001
1434-601X
DOI:10.1140/epja/s10050-024-01381-9