Strong evidence for the existence of supersymmetry in atomic nuclei has been found in the quartet of nuclei 194,195Pt, 195,196Au [1–3]. Our attention is now focused a second quartet of nuclei, that is 193,194Ir, 192,193Os where the model is applicable [4]. We investigate the heaviest osmium isotope which is accessible in a single neutron transfer reaction: 193Os. Excitation energies are known from (d,p)-and (n,γ)-measurements [5,6], but there is limited information about quantum numbers. To measure absolute cross-sections and asymmetries of the 192Os(\(\bar d\), p)193Os reaction we used our facilities at the Munich tandem accelerator. The 22 MeV beam of vector-polarised deuterons was produced by our new Stern-Gerlach-Source. Outgoing protons were analysed by the Q3D magnetic spectrograph and detected with a strip-detector. The target consisted of a metallic foil of 146 μg/cm2 highly enriched 192Os (99%).