Abstract
Abstract An anomalous magnetic behaviour has been observed for transition metal (Fe, Co and Ni) based antidot nanostructures by modifying only the lattice geometry of the nanoholes array. A series of ferromagnetic, FM, antidot arrays have been fabricated by depositing them onto nanoporous alumina membranes with different pore diameters, d, varying in the range between 32 ± 2 and 93 ± 1 nm and maintaining fixed the inter-holes distance, Dint = 103 ± 2 nm, and layer thickness, t = 20 nm, but reducing the edge-to-edge separation between adjacent antidots, (W = Dint – d). A noticeable change of the in-plane coercivity dependence with W has been observed with an in-plane critical edge to edge distance, WC//, at which the in-plane coercivity behaviour with W is changed. In addition, for antidot samples with large W the in-plane hysteresis loops show single-step magnetic behaviour. Meanwhile, the INP hysteresis loops with W
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