Transition from direct to sequential two-proton decay in s-d shell nuclei

Abstract

Transitions among different mechanisms of two-proton decay are studied in general. The introduced improved direct-decay model generalizes the semi-analytical models used before and provides flawless phenomenological description of three-body correlations in 2p decays. This is demonstrated by examples of the low-lying 16Ne state decays. Different forms of transition dynamic are shown to be highly probable beyond the proton dripline for the s-d shell nuclei. It is demonstrated that transition dynamic of 2p emitters can provide means for extraction of a width of the ground-state resonance of a core+p subsystem of the core+2p system. Practical applicability of the method is demonstrated by properties of the 14F ground state derived from the 15Ne→ \,13\!\!O+2p decay data and of the 29Cl ground state derived from the 30Ar→ \,28\!\!S+2p decay data.