Magnetic excitations in Fe-doped Mn3Si

Abstract

Inelastic scattering of neutrons has been used to study the magnetic excitations in Fe‐doped Mn₃Si at 7 K. Mn₃Si is an incommensurate antiferromagnet with magnetic Bragg points of the form (h,k,l)±(δ,δ,δ) with δ=0.425. Its magnetic excitations are qualitatively similar to those of the γ‐Mn alloys, or of the itinerant antiferromagnet, chromium. The addition of 5 at. % of iron causes the value of δ to change to 1/2, so that the material becomes a commensurate antiferromagnet, greatly simplifying the shape of the excitation spectrum. In addition the low Néel temperature (23 K) permits measurements to be extended to energies of several times kT_N. Constant energy scans through a magnetic Bragg point are qualitatively consistent with the spin‐wave dispersion relation forming a ‘‘cone’’ around the magnetic Bragg point. Low‐energy scans (1 meV≤ΔE≤4 meV) are centered on the Bragg point and flat‐topped, while at higher energies (5 meV≤ΔE≤15 meV) the peak is clearly resolved as double. A fit using a damped‐harmonic oscillator cross section suggests that the slope of the dispersion relation increases with energy, and that the excitations are highly damped.