MAGNETIC EXCITATIONS IN THE ITINERANT FERROMAGNET UFE2

UFe2 (Laves phase, fee crystal structure) is a ferromagnet with T-C=16 5 K, Previous neutron elastic measurements have established that the F e moment is 0.6 mu(B) and that the moment on the U atom is almost zero because of the cancellation of the spin and orbital moments, which ar e both about 0.23 mu(B), but are oppositely directed. We have now exam ined the spin dynamics from a large single crystal with both thermal a nd cold-source triple-axis spectrometers. Comparisons with the extensi ve work performed on RFe(2)(R=Tb, Ho, Er) suggests that two dispersive modes should be seen at low energy (i.e., less than similar to 20 meV ). However, only one mode has been found in UFe2 and this involves the precession of the Fe spins. We propose that the acoustic mode involvi ng the uranium spin is sufficiently broadened in (q,omega) space that we cannot readily detect the excitation. Nevertheless, the influence o f the U-Fe exchange may be seen in (a) the presence of a gap in the Fe spin-wave spectrum at q=0, and (b) in an increase in the Fe spin-wave stiffness constant (D) as compared to that found in pure Fe. This las t property is a direct consequence of the hybridization between the U5 f and Fe3d electrons. We find also that D is strongly temperature depe ndent, presumably due to two-magnon interactions. Thus, this effect, t ogether with the low moment on the Fe atoms, results in the comparativ ely low, as compared to the RFe(2) compounds, T-C of 165 K in UFe2.