Surface-Layer Ferromagnetism and Strong Surface Anisotropy in Ca_1-xLa_xB₆ (x=0.005) Evidenced by Ferromagnetic Resonance

Abstract

In Ca_1-xLa_xB₆ (x=0.005) single crystals using 9.6 GHz microwave frequency at room temperature, we observed resonance lines which exhibit sample-shape dependence with respect to their resonance field, linewidth and numbers. A disk-shaped sample showed a single, symmetrical resonance line and a large lower-field shift. The resonance field of the disk sample was investigated in detail and exhibits cos ^-1 θ dependence, where θ is the angle between the disk plane and the external magnetic field. This finding leads to the conclusion that the spins are strongly forced to stay in the disk plane by an anisotropy field. The symmetrical resonance line originates from surface spins within the microwave skin depth in a metallic sample. At a higher angle θ, the resonance line became antisymmetrical. At the microwave frequency of 24 GHz, the resonance line shape was also antisymmetrical even at θ=0. We conclude that spins in Ca_0.995La_0.005B₆ exist only within the surface layer of approximately 1.5 μm thick, and they feel strong surface magnetic anisotropy of an easy plane type.