Abstract
An investigation of the systematic behavior of thed 3/2 admixture in the ground state of the N = 16 isotones 26Ne, 28Mg, and 30Si has been performed by means of a direct single-neutron removal reaction. Results are in good agreement with shell model calculations, with a sharply diminishing admixture in the more exotic neutron-rich region. The single-neutron removal methodoloy has also yielded several new spectroscopic results for 25Ne including a firm1/2 + spin-parity assignment for the ground state.
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