Abstract
Three-body dynamics for the $^{6}\mathrm{He}$ and $^{6}\mathrm{Li}$ ground states are used for the first time to investigate the shell structure of these nuclei. Shell orbital probabilities, configuration-space single-particle orbital densities, and two-particle wave-function amplitudes in $j\ensuremath{-}j$ coupling are calculated. The predicted orbital probabilities differ significantly from shell-model values except for those with core excitation. The need in shell models for core excitation may actually reflect required three-body dynamical effects.
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