Abstract
A method for producing arrays of nanometric wires is briefly described. The method consists of extruding a compact containing parallel iron wires spaced in a copper matrix until the wires become extremely small (10 nm at the ultimate stage). Coercive forces up to 0.04 T are found. A clear shape-induced anisotropy is observed. The decrease in H/sub A/ observed at the smallest diameters is attributed to wire distortion. The activation volume deduced from magnetic aftereffect measurements is 6/spl times/10/sup 4/ nm/sup 3/. It is much larger than the one expected in the case of coherent rotation. Its value is rather consistent with a collective magnetization reversal process. The angular dependence of H/sub C/ approaches a 1/cos /spl theta/ law. This behavior excludes coherent rotation. It is expected whenever the coercive field is much weaker than the anisotropy field in the activation volume.
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