Exactly solvable configuration mixing scheme in the vibrational limit of the interacting boson model

Authors

Feng Pan, Liaoning Normal University
Dongkang Li, Liaoning Normal University
Guoqing Cheng, Liaoning Normal University
Zheng Qiao, Liaoning Normal University
Jiachao Bai, Liaoning Normal University
Jerry P. Draayer, Louisiana State University

Document Type

Article

Publication Date

3-14-2018

Abstract

An intruder configuration mixing scheme with 2n-particle and 2n-hole configurations from n=0 up to n→ in the U(5) (vibrational) limit of the interacting boson model is proposed. A simple Hamiltonian suitable to describe the intruder and normal configuration mixing is found to be exactly solvable, and its eigenstates can be expressed as the SU(1,1) coherent states built on the U(5) basis vectors of the interacting boson model. It is shown that the configuration mixing scheme keeps lower part of the vibrational spectrum unchanged and generates the intruder states due to the mixing. Some low-lying level energies and experimentally known B(E2) ratios of Cd108,110 are fitted and compared with the experimental results.

Publication Source (Journal or Book title)

Physical Review C

Recommended Citation

Pan, F., Li, D., Cheng, G., Qiao, Z., Bai, J., & Draayer, J. (2018). Exactly solvable configuration mixing scheme in the vibrational limit of the interacting boson model. Physical Review C, 97 (3) https://doi.org/10.1103/PhysRevC.97.034316