Collective 1+ states in rare earth and actinide nuclei

Authors

O. Castaños, Louisiana State University
J. P. Draayer, Louisiana State University
Y. Leschber, Louisiana State University

Document Type

Article

Publication Date

11-2-1987

Abstract

A shell-model description of the structure of low-energy states of heavy deformed nuclei is used to predict the number and strengths of 1⁺ states that couple to the ground state via a strong M1 transition. Results are given for the magnetic moments of 2g⁺ states of various Gd, Er, U, and Pu isotopes and also the M1 transition strengths 1⁺ → 0g⁺, 1⁺ → 2g⁺, and 1⁺ → 2γ⁺ for several rare earth and actinide nuclei. © 1987.

Publication Source (Journal or Book title)

Nuclear Physics Section A

First Page

494

Last Page

508

Recommended Citation

Castaños, O., Draayer, J., & Leschber, Y. (1987). Collective 1+ states in rare earth and actinide nuclei. Nuclear Physics Section A, 473 (3), 494-508. https://doi.org/10.1016/0375-9474(87)90137-0