High-spin structure and Band Termination in 103Cd

Abstract

Excited states of the neutron deficient 103Cd nucleus have been investigated via the 72Ge(35Cl, p3n) reaction at beam energy of 135 MeV by use of in-beam spectroscopic methods. Gamma rays depopulating the excited states were detected using the Gammasphere spectrometer with high-fold γ-ray coincidences. A quadrupole γ-ray coincidence analysis (γ4) has been used to extend the known level scheme. The positive parity levels have been established up to J = 35/2 and Ex = 7.071 MeV. In addition to the observation of highly-fragmented level scheme belonging to the positive-parity sequences at Ex 5 MeV, the termination of a negative-parity sequence connected by E2 transitions has been established at J = 47/2 and Ex = 11.877 MeV. The experimental results corresponding to both the positive- and negative-parity sequences have been theoretically interpreted in the framework of the core particle coupling model. Evidence is presented for a shape change from collective prolate to non-collective oblate above the Jπ = 39/2- (8011 keV) level and for a smooth termination of the negative-parity band.