Tetrahedral shape and Lambda impurity effect in 80Zr with a multidimensionally constrained relativistic Hartree-Bogoliubov model
Abstract
This study investigates the tetrahedral structure in 80Zr and Lambda () impurity effect in 81~Zr using the multidimensionally constrained relativistic Hartree-Bogoliubov model. The ground states of both 80Zr and 81~Zr exhibit a tetrahedral configuration, accompanied by prolate and axial-octupole shape isomers. Our calculations reveal there are changes in the deformation parameters β20, β30, and β32 upon binding to 80Zr, except for β32 when occupies p-orbits. Compared to the two shape isomers, the particle exhibits weaker binding energy in the tetrahedral state when occupying the 1/2+[000](s) or 1/2-[110] single-particle states. In contrast, the strongest binding occurs for the particle in the 1/2-[101] state with tetrahedral shape. Besides, a large separation energy may not necessarily correlate with a significant overlap between the density distributions of the particle and the nuclear core, particularly for tetrahedral hypernuclei.
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