Z=14 Magicity Revealed by the Mass of the Proton Dripline Nucleus 22Si
Abstract
Using the B-defined isochronous mass spectrometry technique, we conducted the first mass measurement of the proton dripline nucleus 22Si. We confirm that 22Si is bound against particle emission with Sp/S2p=+1412(114)/+229(54) keV, fixing the proton dripline location for the Si element. By analyzing the mass differences of the neighboring sd-shell nuclei, we find that 22Si exhibits a doubly-magic character similar to its mirror partner 22O, and that the mirror energy difference of 22Si-22O deviates from the predictions assuming mirror symmetry. Gamow shell-model calculations reveal that the average occupations of valence protons in 22Si are nearly identical to those of valence neutrons in 22O, supporting the Z=14 magicity in 22Si. The observed mirror-symmetry breaking is attributed to the extended proton distribution in 22Si arising from a small contribution of the unbound π2s1/2 orbital.
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