Abstract
The $^{36}\mathrm{S}$(t,p\ensuremath{\gamma}${)\mathrm{}}^{38}$S reaction was used to populate levels in $^{38}\mathrm{S}$ up to 3-MeV excitation. A definite ${2}^{+}$ assignment to the 1292-keV first-excited state was obtained from a (t,p\ensuremath{\gamma}) angular correlation. Doppler shift information provided lower limits of 0.45 and 0.2 ps for the mean lifetimes of the 1291\ensuremath{\rightarrow}0 and 2825\ensuremath{\rightarrow}1291 transitions. Evidence for a possible new level at 2805 keV was obtained from p-\ensuremath{\gamma} coincidence data. The known level spectrum of $^{38}\mathrm{S}$ is compared to predictions of a shell-model interaction utilizing the full sdpf model space. The E2 and M1 transition rates predicted by this calculation are also presented.
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