Evolution of single-particle structure near the N=20 island of inversion

Baader EF; Borge MJG; Butler PA; Catford WN; Cropper BD; de Angelis G; Freeman SJ; Gaffney LP; Hoffman CR; Kay BP; Konki J; Kröll T; Labiche M; Lazarus IH; Lubna RS; MacGregor PT; Martel I; McNeel DG; Page RD; Poleshchuk O; Raabe R; Recchia F; Sharp DK; Tang TL; Yang J

Evolution of single-particle structure near the N=20 island of inversion

Authors: Baader EF
Borge MJG
Butler PA
Catford WN
Cropper BD
de Angelis G
Freeman SJ
Gaffney LP
Hoffman CR
Kay BP
Konki J
Kröll T
Labiche M
Lazarus IH
Lubna RS
MacGregor PT
Martel I
McNeel DG
Page RD
Poleshchuk O
Raabe R
Recchia F
Sharp DK
Tang TL
Yang J
Publication date: 1 January 2021
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The single-particle properties of 29Mg have been investigated via a measurement of the 28Mg(d,p)29Mg reaction, in inverse kinematics, using the ISOLDE Solenoidal Spectrometer. The negative-parity intruder states from the f p shell have been identified and used to benchmark modern shell-model calculations. The systematic data on the single-particle centroids along the N = 17 isotones show good agreement with shell-model predictions in describing the observed trends from stability toward 25O. However, there is also evidence that the effect of the finite geometry of the nuclear potential is playing a role on the behavior of the p orbitals near the particle-emission threshold.status: Published onlin