Axially adjustable magnetic properties in arrays of multilayered Ni/Cu nanowires with variable segment sizes

Authorsاعظم شیرازی تهرانی-محمد الماسی کاشی-عبد العلی رمضانی-امیرحسن منتظر
JournalSUPERLATTICE MICROST
Paper TypeFull Paper
Published At2016-4-01
Journal GradeISI
Journal TypeTypographic
Journal CountryAruba
Journal IndexISI

Abstract

Arrays of multilayered Ni/Cu nanowires (NWs) with variable segment sizes were fabricated into anodic aluminum oxide templates using a pulsed electrodeposition method in a single bath for designated potential pulse times. Increasing the pulse time between 0.125 and 2 s in the electrodeposition of Ni enabled the formation of segments with thicknesses ranging from 25 to 280 nm and 10e110 nm in 42 and 65 nm diameter NWs, respectively, leading to disk-shaped, rod-shaped and/or near wire-shaped geometries. Using hysteresis loop measurements at room temperature, the axial and perpendicular magnetic properties were investigated. Regardless of the segment geometry, the axial coercivity and squareness significantly increased with increasing Ni segment thickness, in agreement with a decrease in calculated demagnetizing factors along the NW length. On the contrary, the perpendicular magnetic properties were found to be independent of the pulse times, indicating a competition between the intrawire interactions and the shape demagnetizing field.