A Study of Levels in 149Nd using the (d, t) and (3He, α) Reactions

Abstract

Triton spectra from the ¹⁵⁰Nd(d, t)¹⁴⁹Nd reaction have been measured at 15 angles using beams of 12 MeV deuterons. The ¹⁵⁰Nd(³He, α)¹⁴⁹Nd reaction was studied at four angles with 24 MeV ³He beams. In all cases the reaction products were analyzed with an Enge-type magnetic spectrograph and detected with photographic emulsions. The peak widths (FWHM) were approximately 8 keV for the (d, t) studies and 25 keV for the (³He, α) spectra. It is now evident that the highest energy triton group ascribed to the ¹⁵⁰Nd(d, t)¹⁴⁹Nd reaction in previous works does not correspond to the ground state transition. According to the current interpretation the ground state transition has a Q value of −1.122 ± 0.010 MeV. The (d, t) angular distributions and the ratios of (³He, α) and (d, t) cross sections at selected angles were used to determine l values for a number of the transitions. Three states in ¹⁴⁹Nd at 481, 813, and 986 keV are definitely populated by l = 0 transitions and thus have I^π = 1/2⁺. A strongly perturbed band consisting of a mixture of Nilsson states from the i_13/2 shell has been found, with properties similar to the corresponding bands in the isotones ¹⁵¹Sm and ¹⁵³Gd. The total observed intensity for each of the l values 0, 1, 2, and 6 cannot be explained by the extreme single-particle shell model but is consistent with that predicted by the Nilsson model. However, the splitting of the strength among the observed states cannot be explained by the basic Nilsson model.