The decay characteristic of 22Si and its ground-state mass significantly affected by three-nucleon forces

Abstract

The decay of the proton-rich nucleus 22Si was studied by a silicon array coupled with germanium clover detectors. Nine charged-particle groups are observed and most of them are recognized as β-delayed proton emission. A charged-particle group at 5600 keV is identified experimentally as β-delayed two-proton emission from the isobaric analog state of 22Al. Another charged-particle emission without any β particle at the low energy less than 300 keV is observed. The half-life of 22Si is determined as 27.5 (18) ms. The experimental results of β-decay of 22Si are compared and in nice agreement with shell-model calculations. The mass excess of the ground state of 22Si deduced from the experimental data shows that three-nucleon (3N) forces with repulsive contributions have significant effects on nuclei near the proton drip line.