Normal and intruder configurations in 34Si populated in the β- decay of 34Mg and 34Al

Abstract

The structure of 34Si was studied through γ spectroscopy separately in the β- decays of 34Mg and 34Al at the ISOLDE facility of CERN. Different configurations in 34Si were populated independently from the two recently identified β-decaying states in 34Al having spin-parity assignments Jπ = 4- dominated by the normal configuration π (d5/2)-1 (f7/2) and Jπ = 1+ by the intruder configuration π (d5/2)-1 (d3/2)-1(f7/2)2. The paper reports on spectroscopic properties of 34Si such as an extended level scheme, spin and parity assignments based on log(ft) values and γ-ray branching ratios, absolute β feeding intensities and neutron emission probabilities. A total of 11 newly identified levels and 26 transitions were added to the previously known level scheme of 34Si. Large scale shell-model calculations using the sdpf-u-mix interaction, able to treat higher order intruder configurations, are compared with the new results and conclusions are drawn concerning the predictive power of sdpf-u-mix, the N=20 shell gap, the level of mixing between normal and intruder configurations for the 01+, 02+ and 21+ states and the absence of triaxial deformation in 34Si.