Journal
PHYSICAL REVIEW C
Volume 104, Issue 2, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.104.024323
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Funding
- Tenure Track Pilot Programme of the Croatian Science Foundation
- Ecole Polytechnique Federale de Lausanne
- QuantiXLie Centre of Excellence
- European Union through the European Regional Development Fund, the Competitiveness and Cohesion Operational Programme [KK.01.1.1.01.0004]
- NSFC [11875225, 12005109, 11765015]
- Croatian-Swiss Research Programme [TTP-2018-07-3554]
- Croatian Government
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The study investigates the effect of coupling between pairing and quadrupole triaxial shape vibrations on low-energy collective states of gamma-soft nuclei. By simultaneously considering both the shape and pairing collective degrees of freedom, the EDF-based IBM successfully reproduces data on low-energy 0(+) states and gamma-vibrational bands.
The effect of coupling between pairing and quadrupole triaxial shape vibrations on the low-energy collective states of gamma-soft nuclei is investigated using a model based on the framework of nuclear energy density functionals (EDFs). Employing a constrained self-consistent mean-field (SCMF) method that uses universal EDFs and pairing interactions, potential energy surfaces of characteristic gamma-soft Os and Pt nuclei with A approximate to 190 are calculated as functions of the pairing and triaxial quadrupole deformations. Collective spectroscopic properties are computed using a number-nonconserving interacting boson model (IBM) Hamiltonian, with parameters determined by mapping the SCMF energy surface onto the expectation value of the Hamiltonian in the boson condensate state. It is shown that, by simultaneously considering both the shape and pairing collective degrees of freedom, the EDF-based IBM successfully reproduces data on collective structures based on low-energy 0(+) states, as well as gamma-vibrational bands.
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