Аннотация:The reactions $^{28}\mathrm{Si}(d,p)^{29}\mathrm{Si}$, $^{32}\mathrm{S}(d,p)^{33}\mathrm{S}$, and $^{36}\mathrm{Ar}(d,p)^{37}\mathrm{Ar}$ were studied at an incident deuteron energy of 18.00 MeV. Some $^{28}\mathrm{Si}(d,p)^{29}\mathrm{Si}$ data were also obtained at an incident deuteron energy of 21.00 MeV. Angular distributions were obtained for proton groups leading to states in the residual nuclei $^{29}\mathrm{Si}$, $^{33}\mathrm{S}$, and $^{37}\mathrm{Ar}$ with excitation energies up to approximately 8 MeV. With the use of distorted-wave Born-approximation (DWBA) analyses, spectroscopic factors were obtained for all ($d,p$) transitions which displayed direct-reaction characteristics. $J$ dependence was observed in $l=2 (1d)$ and $l=1 (2p) (d,p)$ transitions for ${E}_{d}=18.00$ MeV. The spectroscopic factors obtained in this experimental study are compared with the predictions of current theoretical models which treat nuclei in the upper $s\ensuremath{-}d$ shell.
