Identifying the spin trapped character of the 32Si isomeric state

Abstract

The properties of a nanosecond isomer in 32Si, disputed in previous studies, depend on the evolution of proton and neutron shell gaps near the `island of inversion'. We have placed the isomer at 5505.2(2) keV with Jπ = 5-, decaying primarily via an E3 transition to the 2+1 state. The E3 strength of 0.0841(10) W.u. is unusually small and suggests that this isomer is dominated by the ( d3/2)-1 ( f7/2)1 configuration, which is sensitive to the N=20 shell gap. A newly observed 4+1 state is placed at 5881.4(13) keV; its energy is enhanced by the Z=14 subshell closure. This indicates that the isomer is located in a `yrast trap', a feature rarely seen at low mass numbers.

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