moment of inertia

g factor of chiral doublets with $π{(1{h}_{11/2})}^{1}⊗ν{(1{h}_{11/2})}^{−1}$ configuration

Q.B. Chen

DOI: 10.1103/PhysRevC.109.024308

Abstract

The g factor of chiral doublet bands has been extensively studied within the framework of the particle rotor model. Specifically, these investigations have focused on systems characterized by the particle-hole configuration π(1h11/2)1⊗ν(1h11/2)−1. Comprehensive examinations have been carried out to assess the influence of deformation parameters β and γ, the moment of inertia j0, the total spin I, and the angular momentum of the collective rotor jR on the g factor. The findings reveal that the g factor exhibits insensitivity to variations in J0 and β values, while its behavior is highly sensitive to changes in the γ parameter. Moreover, it has been observed that the g factors and the g(jR) plots associated with the doublet bands demonstrate remarkable similarity in the static chirality region. However, noticeable differences arise in regions characterized by chiral vibration or lacking chirality.