Temperature dependence of the magnetostriction and magnetization in single crystal HoFe2

Abstract

The magnetostriction (λ₁₀₀) and the magnetic moment of single crystal HoFe₂ were measured as a function of temperature down to T=4.2 K. HoFe₂ forms a cubic (C15) Laves phase compound with the easy axis of magnetization along the [100] crystallographic direction. At room temperature the magnetostriction is rather small with λ₁₀₀=−67×10⁻⁶ and λ₁₁₁=200×10⁻⁶. λ₁₀₀ increases substantially with decreasing temperature reaching a value of −745×10⁻⁶ at T=4.2 K. This behavior is contrary to that observed in DyFe₂ (also [100] easy) where λ₁₁₁≫λ₁₀₀. The decrease in λ₁₀₀ with increasing temperature was found to be much more rapid than could be explained by lowest order single‐ion magnetoelastic theory. On the other hand, magnetostriction measurements of λ₁₁₁ over the temperature range 275–325 K result in a temperature dependence which can satisfactorily be explained by the single‐ion model. The spontaneous magnetic moment at T=0 K is 134.5 emu/g. Taking the the gJ value of 10 μ_b for the Ho³⁺ sublattice moment results in an Fe moment of 1.67 μ_b. This value is nearly equal to those previously obtained in other RFe₂ compounds. The magnetization curves at room temperature along the principal crystallographic directions yield anisotropy constants K₁=5.5×10⁶ erg/cm³ and K₂=6.4×10⁶ erg/cm³.