Antimagnetic Rotation Band in Nuclei: A Microscopic Description

P. W. Zhao; J. Peng; H. Z. Liang; P. Ring; J. Meng

arXiv:1105.3622·nucl-th·September 16, 2011

Antimagnetic Rotation Band in Nuclei: A Microscopic Description

P. W. Zhao, J. Peng, H. Z. Liang, P. Ring, J. Meng

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TL;DR

This paper presents a microscopic, self-consistent investigation of antimagnetic rotation in nuclei using covariant density functional theory and tilted axis cranking, successfully reproducing experimental spectra and B(E2) values.

Contribution

It is the first to apply a fully self-consistent microscopic approach to study AMR in nuclei, confirming its realization in specific nuclear bands.

Findings

01

Successful reproduction of experimental spectra of 105Cd

02

Accurate prediction of B(E2) transition values

03

Supports the existence of AMR in nuclear bands

Abstract

Covariant density functional theory and the tilted axis cranking method are used to investigate antimagnetic rotation (AMR) in nuclei for the first time in a fully self-consistent and microscopic way. The experimental spectrum as well as the B(E2) values of the recently observed AMR band in 105Cd are reproduced very well. This gives a further strong hint that AMR is realized in specific bands in nuclei.

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