Hyperfine interactions and magnetization of (Fe1−xCox)80B20 amorphous alloys

Abstract

Mössbauer spectra of ternary (Fe_1−xCo_x)₈₀B₂₀ ferromagnetic amorphous alloys were taken at 300, 77, and 6 K. The relatively broad distributions of the Fe⁵⁷ hyperfine field could be fitted to quasi‐symmetrical Gauss profiles with a relative half‐intensity line width of 8–10%. Whereas the average hyperfine field HF at 6 K decreases slowly with x for x≳0.1, the isomer shift increases with x stronger than in the case of (Fe_1−xNi_x)₈₀B₂₀ amorphous alloys. The saturation magnetization M_s has been measured in the temperature range 4–300 K. A linear dependence of HF (at 6 K) on the average magnetic moment μ holds over the whole investigated compositional range according to the equation HF = aμ_Fe+μb where μ_Fe is the moment of Fe in Fe₈₀B₂₀, a≃134 kOe/μ_B and b≃10 kOe/μ_B. A small enhancement of HF takes place only in the range 0s on T is in very good agreement with the Bloch law M_s(T) = M_s(0)×[1−BT^3/2] with values of B ranging between 0.67 and 1.25×10⁻⁵K^3/2 for 0.75≳x≳0.125 in good agreement with those obtained from the dependence of HF on T.