| Popis: |
A total of 21 states of $^{33}\mathrm{S}$ in the region of excitation from about 8.6 to 9.5 MeV have been studied using the reaction $^{32}\mathrm{S}(d, p)$ at 12 MeV incident deuteron energy and a biased quadrupole spectrometer. Fractionated single-particle states are identified via their forward-angle cross sections, using distorted-wave Born-approximation predictions with resonance state form factors for the residual $^{33}\mathrm{S}$ system. Results are compared with those from ($n, n$) and/or ($n, \ensuremath{\gamma}$) studies over the same region of excitation, where this is possible. It is shown that states strongly populated in ($n, n$) do not often show up in ($d, p$) spectra and vice versa. |
