Dynamics of itinerant ferromagnets above T C (invited)

Abstract

A review is given of our current studies of the magnetic scattering, above T_C, from Ni, Fe, and Fe (4%‐Si). Reliable scattering functions S(Q,ω) are obtained up to 50 meV of energy transfer by combining polarized and unpolarized neutron techniques. Although constant E scans show magnon like peaks in agreement with the previous Oak Ridge data, no peaks are observed in our constant Q scans up to 0.5 Å⁻¹, in contrast to the well defined peak reported by Lynn for Fe(12%‐Si). Unexpectedly, for a wide temperature range, the scattering function S(Q,ω) takes a simple Lorentzian form S(Q,ω)∝(1/κ²₁+q²) ⋅ (Γ/Γ²+ ω²) , with Γ=Λq², where Λ is the diffusion constant, and κ₁ the inverse correlation range. At T_C, where Γ=Aq^2.5, this can be reduced to a universal scattering function q^0.5/[q⁵+(ω/A)²]. This scaling gives an entirely new and unified interpretation of magnetic scattering from Ni, Fe, and all other isotropic cubic ferromagnets.