Backbendings of Superdeformed bands in 36,40Ar

Abstract

Experimentally observed superdeformed (SD) rotational bands in 36Ar and 40Ar are studied by the cranked shell model (CSM) with the paring correlations treated by a particle-number-conserving (PNC) method. This is the first time the PNC-CSM calculations are performed on the light nuclear mass region around A=40. The experimental kinematic moments of inertia J(1) versus rotational frequency are reproduced well. The backbending of the SD band at frequency around ω=1.5 MeV in 36Ar is attributed to the sharp rise of the simultaneous alignments of the neutron and proton 1d5/2[202]5/2 pairs and 1f7/2[321]3/2 pairs, which is the consequence of the band crossing between the 1d5/2[202]5/2 and 1f7/2[321]3/2 configuration states. The gentle upbending at the low frequency of the SD band in 40Ar is mainly effected by the alignments of the neutron 1f7/2[321]3/2 pairs and proton 1d5/2[202]5/2 pairs. The PNC-CSM calculations show that besides the diagonal parts, the off-diagonal parts of the alignments play an important role in the rotational behavior of the SD bands.