Abstract
By inelastic scattering of polarized neutrons near the (200) Bragg reflection, the susceptibilities and linewidths of the spin waves and the longitudinal spin fluctuations, and respectively, were determined separately. By aligning the momentum transfers perpendicular to both and the spontaneous magnetization we explored the statics and dynamics of these modes with transverse polarizations with respect to In the dipolar critical regime, where the inverse correlation length and q are smaller than the dipolar wave number we observe that (i) the static susceptibility of displays the Goldstone divergence while for the Ornstein-Zernicke shape fits the data with a possible indication of a thermal (mass) renormalization at the smallest values; i.e., we find indications for the predicted 1/q divergence of the longitudinal susceptibility; (ii) the spin-wave dispersion as predicted by the Holstein-Primakoff theory revealing in good agreement with previous work in the paramagnetic and ferromagnetic regime of EuS; (iii) within experimental error, the (Lorentzian) linewidths of both modes turn out to be identical with respect to the variation, the temperature independence, and the absolute magnitude. Due to the linear dispersion of the spin waves, they remain underdamped for These central results differ significantly from the well-known exchange-dominated critical dynamics, but are quantitatively explained in terms of dynamical scaling and existing data for The available mode-mode coupling theory, which takes the dipolar interactions fully into account, describes the gross features of the linewidths but not all details of the T and dependences.
- Received 18 October 2001
DOI:https://doi.org/10.1103/PhysRevB.65.144434
©2002 American Physical Society