A comparative study on the structural and magnetic properties of highly ordered hexagonal arrays of Co nanoholes, nanowires, nanopillars and nanotubes, with tuned pore/wire/tube diameters, is here presented. The magnetic interactions and their dependence on the geometric features of the arrays were studied using first-order reversal curves (FORCs). For all nanostructures we observe an increase of the magnetostatic interactions with the templates’ pore diameter, with the higher (smaller) values found for the nanowire (nanohole) arrays. For the smallest diameters studied (35 nm), all types of arrays could be considered as almost isolated nanostructures, where local interactions prevail. In particular, both nanotube and nanohole arrays exhibit considerable local magnetostatic interactions coming from the stray fields within each void or empty core. On the other hand, the coercivity is found to decrease with diameter for the elongated nanostructures, while it increases with the pore ...
M P Proenca, K J Merazzo, L G Vivas, D C Leitao, C T Sousa, J Ventura, J P Araujo and M Vazquez
Click for full article
M P Proenca, K J Merazzo, L G Vivas, D C Leitao, C T Sousa, J Ventura, J P Araujo and M Vazquez
Click for full article
No comments:
Post a Comment