Abstract
The effect of interactions on the soft and hard phases and interference region that commonly appears in the First Order Reversal Curve (FORC) of interacting two-phase magnetic systems was investigated. To obtain an interacting two-phase system, a new method was introduced for the first time to electrodeposit a two-phase magnetic nanowire (NW) composed of hard and soft phases with high magnetization into nanopores of the anodized aluminum oxide template using the single-bath ac-pulse electrodeposition technique. Two-phase behavior was obtained by multilayer and grainy configurations of the CoFe and Cu layers as two type layers with controllable thickness through the related pulse numbers. It was found that interphase interaction can be observed in FORC diagrams with three factors; (i) the shift in center of the soft phase feature along the interaction field axis without the change in coercivity, (ii) shift in center of the hard phase feature along the coercivity axis and (iii) appearance of an additional interference region. However, order of the shifts directly correlates with the order of demagnetizing intraphase interaction through the hard phase and magnetic moment contribution of the soft phase. The interference region contribution was found strongly correlates with irreversible magnetic moment contribution of the soft and hard phases.
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