Level structure of 47Ti from the (d, p) reaction in 46Ti

Abstract

Abstract The reaction 46Ti(d, p) is studied at 10 MeV using the Aldermaston tandem Van de Graaff accelerator and a multichannel magnetic spectrograph. A total of 180 levels are observed up to an excitation of ≈ 7.2 MeV and the stripping angular distributions are analysed in terms of the DWBA theory of direct reactions using the NL/FR optical model potential. Spins, parities and spectroscopic factors are deduced for various levels. Summed spectroscopic factors and quasiparticle energies are obtained for shell model states. Properties of low-lying levels in 47Ti are compared with the MBZ and Coriolis coupling models and also with those of the isotonic nuclei 45Ca and 46Sc.