CERN Accelerating science

Published Articles
Title Coulomb excitation of (31)Mg
Author(s) Seidlitz, M ; Mucher, D ; Reiter, P ; Bildstein, V ; Blazhev, A ; Bree, N ; Bruyneel, B ; Cederkall, J ; Clement, E ; Davinson, T ; van Duppen, P ; Ekstrom, A ; Finke, F ; Fraile, L M ; Geibel, K ; Gernhauser, R ; Hess, H ; Holler, A ; Huyse, M ; Ivanov, O ; Jolie, J ; Kalkuhler, M ; Kotthaus, T ; Krucken, R ; Lutter, R ; Piselli, E ; Scheit, H ; Stefanescu, I ; van de Walle, J ; Voulot, D ; Warr, N ; Wenander, F ; Wiens, A
Collaboration MINIBALL ; REX-ISOLDE
Publication 2011
Imprint 2011
Number of pages 6
In: Phys. Lett. B 700 (2011) 181-186
DOI 10.1016/j.physletb.2011.05.009
Subject category Nuclear Physics - Theory
Accelerator/Facility, Experiment CERN ISOLDE
Abstract The ground state properties of 31 Mg indicate a change of nuclear shape at N=19 with a deformed Jπ=1/2+ intruder state as a ground state, implying that 31 Mg is part of the “island of inversion”. The collective properties of excited states were the subject of a Coulomb excitation experiment at REX-ISOLDE, CERN, employing a radioactive 31 Mg beam. De-excitation γ -rays were detected by the MINIBALL γ -spectrometer in coincidence with scattered particles in a segmented Si-detector. The level scheme of 31 Mg was extended. Spin and parity assignment of the 945 keV state yielded 5/2+ and its de-excitation is dominated by a strong collective M1 transition. Comparison of the transition probabilities of 30,31,32 Mg establishes that for the N=19 magnesium isotope not only the ground state but also excited states are largely dominated by a deformed pf intruder configuration.
Copyright/License Elsevier B.V.

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 記錄創建於2017-11-02,最後更新在2017-11-04