New isomeric transition in 36Mg: Bridging the N=20 and N=28 islands of inversion

Abstract

We observed a new isomeric gamma transition at 168 keV in 36Mg, with a half-life of T1/2=[130-500](40)(+800-20)sys ns. We propose that the observed transition de-excites a new 0+ isomeric state and populates the previously known first 2+ state. The existence of this isomer is consistent with the predictions of the large-scale shell model calculations of 36Mg using the sdpf-u-mix interaction. The observed excitation energy of the second 0+ state is caused by the small energy separation between two prolate-deformed configurations where the intruder configuration corresponds to two neutron excitations from the sd to the pf shell. Within this interpretation, 36Mg becomes the crossing point between nuclei in which ground state deformed/superdeformed configurations are caused by the dominance of N=20 intruders (32,34Mg) and nuclei where deformed configurations are associated with N=28 intruders (38Mg and beyond). We found the lack of three-body monopole corrections in other effective interactions results in a predominance of N=20 intruder configurations past 38Mg incompatible with our observation. We conclude that 36Mg bridges the N=20 and N=28 islands of inversion, forming the so-called Big Island of Deformation.