On a vector boson model realization of the proxy-SU(3) symmetry

¹ Institute for Nuclear Research and Nuclear Energy, Bulgarian Academy of Sciences, Tzarigrad Road 72, BG-1784 Sofia, Bulgaria
² Institute of Nuclear and Particle Physics, National Centre of Scientific Research “Demokritos”, GR-15310 Aghia Paraskevi, Attica, Greece.

^* e-mail: nminkov@inrne.bas.bg
^** e-mail: bonat@inp.demokritos.gr

Published online: 8 October 2024

Abstract

We test the capability of highest-weight (h.w.) irreducible representations (irreps) (λ, µ)_hw determined in the model scheme with proxy SU(3) symmetry to describe groundand γ- collective bands and transition rates in heavy even-even nuclei when applied within the vector boson model (VBM) with broken SU(3) symmetry. We find that for nuclei with closely disposed groundand γ-band energy levels the obtained root-mean square (RMS) deviations between theory and experiment exceed those obtained in the original VBM application in which the (λ, µ) _free values are freely adjusted to data. In nuclei with a large ground-γ energy distance we find that the quality of the (λ, µ)_hw description coincides with that obtained by (λ, µ) _free. This preliminary result suggests that the proxy SU(3) symmetry may be realized in terms of the algebraic VBM.