https://doi.org/10.1140/epja/s10050-023-01166-6
Regular Article - Theoretical Physics
Theoretical perspectives of nuclear structure in82−88Ge and 66−74Se isotopes
1
Department of Physics, University of Jammu, 180006, Jammu, India
2
Department of Higher Education, Government of J&K, Jammu and Kashmir, Jammu, India
3
Department of Physics and Astronomical Sciences, Central University of Jammu, 181143, Samba, India
4
University of Kashmir, Srinagar, 190001, Srinagar, India
Received:
13
April
2023
Accepted:
13
October
2023
Published online:
6
November
2023
The current work exhibits the effective implementation of the triaxial projected shell model (TPSM) to explore the non–axial features displayed by 82−88Ge and 66−74Se isotopes located close to the shell closures at Z = 28 and N = 50.The interaction of excited band structures with the ground state seems to have a profound and considerable impact on the pattern of deformation of these nuclei. The systematic comparison and analysis of the deformation systematics of E(
) and R4/2 ratio reflect the γ-soft nature of the neutron-deficient Se isotopes, whereas neutron-rich Ge isotopes demonstrate a shape transition from spherical to γ-soft nature. The application of TPSM in the present work not only yields the yrast band but also brings forth γ- and 2γ-vibrational band spectra upto high spins for the first time. To properly comprehend the evolution of intrinsic nuclear structural features of the studied even-even Ge and Se isotopic chains, numerous other nuclear structure properties, such as back-bending in MOI, variation of g-factor with angular momentum, and reduced transition probabilities of γ- and g-band, have also been covered within the deformed triaxial basis. The TPSM results, generated by using the most appropriate values of parameters in the Hamiltonian for studied even-even Ge and Se isotopic chains, are in reasonable accordance with their experimental counterparts as well as other theoretical results.
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