Modelling hyperfine interactions for nuclear g-factor measurements

B. P. McCormick; A. E. Stuchbery; A. Goasduff; A. Kusoglu; G. Georgiev

doi:10.1051/epjconf/202023204009

All issues

Volume 232 (2020)

EPJ Web Conf., 232 (2020) 04009

Abstract

Open Access

Issue		EPJ Web Conf. Volume 232, 2020 Heavy Ion Accelerator Symposium (HIAS 2019)


Article Number		04009
Number of page(s)		6
Section		Nuclear Structure
DOI		https://doi.org/10.1051/epjconf/202023204009
Published online		06 April 2020

EPJ Web of Conferences 232, 04009 (2020)
https://doi.org/10.1051/epjconf/202023204009

Modelling hyperfine interactions for nuclear g-factor measurements

B. P. McCormick¹^*, A. E. Stuchbery¹^**, A. Goasduff², A. Kusoglu²^,3 and G. Georgiev¹^,2

¹ Department of Nuclear Physics, Research School of Physics, The Australian National University, ACT 2601, Australia
² CSNSM, CNRS/IN2P3, Université Paris-Sud, UMR8609, F-91405 ORSAY-Campus, France
³ Department of Physics, Faculty of Science, Istanbul University, Vezneciler/Fatih, 34134, Istanbul, Turkey

^* e-mail: u5600477@anu.edu.au
^** e-mail: andrew.stuchbery@anu.edu.au

Published online: 6 April 2020

Abstract

A promising technique for g-factor measurements on short-lived nuclear states utilises the hyperfine fields of free ions in vacuum. To fully utilise this technique the hyperfine interaction must be modelled based on atomic structure calculations. Atomic structure calculations were performed using the most recent release of the General Relativistic Atomic Structure Package, and Monte-Carlo simulations of atomic-decay cascades in highly charged ions were developed. The simulations were used to fit experimental data on excited ⁵⁶Fe ions recoiling in vacuum with a view to determining the first-excited state g factor, g(2₁⁺), of ⁵⁶Fe.

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