Shape evolution of Hg isotopes within the covariant density functional theory

Abstract

The shape evolution in the neutron-deficient Hg region is investigated within the covariant density functional framework. We study in detail the chain of even-even mercury isotopes 190-200Hg using the relativistic point coupling model. The low-energy excitation spectrum and the B(E2) transitions rates of even-even nuclei are obtained as solutions of a five-dimensional collective Hamiltonian (5DCH) model, with parameters determined by constrained self-consistent mean-field calculations based on the relativistic energy density functional DD-PC1, and a finite-range pairing interaction. The calculations suggest a very interesting structure evolution with coexisting configurations for 190Hg, increased collectivity for the isotopes 192-198Hg and a more spherical structure for 200Hg. © 2021 World Scientific Publishing Company.