| Authors | R. Nemati , M.H. Abbas , A. Ramazani , M. Almasi Kashi |
|---|---|
| Journal | Physica B: Condensed Matter |
| Presented by | کاشان |
| Page number | 414578 |
| Serial number | 651 |
| Paper Type | Full Paper |
| Published At | 2022/12/21 |
| Journal Grade | ISI |
| Journal Type | Typographic |
| Journal Country | Netherlands |
Abstract
FeCo/Cu multilayer NW arrays are fabricated using a pulsed electrodeposition method in 50 nm pore diameter
anodic aluminum oxide templates. The magnetic layer (LFeCo) and nonmagnetic layer (LCu) thicknesses range
between 23–225 and 2–50 nm, respectively. These layer designations make it possible to find a thin Cu layer, in
which the magnetic behavior of multilayer NWs is similar to that of alloy NWs. A threshold LCu is also obtained,
representing dual behavior of the coercive field in FeCo/Cu multilayer NWs. These behaviors, in turn, are
associated with an increase in magnetizing and demagnetizing interactions, as evidenced by hysteresis curve and
first-order reversal curve experiments. By extracting magnetic parameters such as the average coercive field,
irreversible coercive field, magnetostatic interaction distribution, and reversibility, the magnetic behavior of
FeCo/Cu multilayer NWs is comprehensively explored as a function of LFeCo.
tags: FeCo/Cu multilayer nanowires Pulsed electrodeposition method First-order reversal curve Magnetostatic interaction distribution Coercivity Aspect ratio