Coulomb excitation of29,30Na: Mapping the borders of the island of inversion

M Seidlitz,J Van De Walle,F Radeck,T Steinbach,N Warr,H De Witte,B Siebeck,N Kesteloot,D Voulot,K Wrzosek-Lipska,K Geibel,B Bruyneel,T Davinson,F Wenander,P Van Duppen,A Blazhev,P Reiter,R Lutter,N Bree,D Schneiders,P J Woods,R Krücken,C Bauer,R Gernhäuser,Ch Sotty ,L P Gaffney,Douglas D Dijulio ,M Scheck,K Wimmer,B Bastin,M Huyse,J Pakarinen,Robert A Altenkirch ,J Taprogge,J Cederkäll,P A Butler,Г Георгиев ,J Diriken,Thilo Kroll

doi:10.1103/physrevc.89.024309

Abstract

Nuclear shell evolution in neutron-rich Na nuclei around N = 20 was studied by determining reduced transition probabilities, i.e., B(E2) and B(M1) values, in order to map the border of the island of inversion. To this end Coulomb-excitation experiments, employing radioactive Na-29,Na-30 beams with a final beam energy of 2.85 MeV/nucleon, were performed at REX-ISOLDE, CERN. De-excitation gamma rays were detected by the MINIBALL gamma-ray spectrometer in coincidence with scattered particles in a segmented Si detector. Transition probabilities to excited states were deduced. The measured B(E2) values agree well with shell-model predictions, supporting the idea that in the Na isotopic chain the ground-state wave function contains significant intruder admixture already at N = 18, with N = 19 having an almost pure two-particle-two-hole deformed ground-state configuration. (Less)

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