Abstract
Data for the $^{21}\mathrm{Ne}(p, t)$ reaction to the $\frac{3}{{2}^{+}}$ state at 4.03 MeV excitation in $^{19}\mathrm{Ne}$ are consistent, both in angular distribution shape and cross-section magnitude, with calculations that assume a dominant 5p-2h configuration for this state.NUCLEAR REACTIONS $^{21}\mathrm{Ne}(p, t)$, $E=40$ MeV; measured $\ensuremath{\sigma}({E}_{t}, \ensuremath{\theta})$. $^{19}\mathrm{Ne}$ levels deduced configuration. DWBA with microscopic wave functions.
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