| Authors | S. Samanifar, M. Almasi Kashi, A. Ramazani |
|---|---|
| Journal | physica c |
| Presented by | دانشگاه کاشان |
| Page number | 72-74 |
| Volume number | 543 |
| Paper Type | Full Paper |
| Published At | 2018-3-6 |
| Journal Grade | ISI (WOS) |
| Journal Type | Typographic |
| Journal Country | Aruba |
Abstract
Magnetic nanowires electrodeposited into solid templates are of high interest due to their tunable properties
which are required for magnetic recording media and spintronic devices. Here, highly ordered arrays of FeCoNi
NWs with varied diameters (between 60 and 150 nm) were fabricated into nanopores of hard-anodized aluminum
oxide templates using pulsed ac electrodeposition technique. X-ray diffraction patterns indicated the
formation of FeCoNi NWs with fcc FeNi and bcc FeCo alloy phases, being highly textured along the bcc [110]
direction. Magnetic properties were studied by hysteresis loop measurements at room temperature and they
showed reductions in coercivity and squareness values by increasing diameter. First-order reversal curve measurements
revealed that, with increasing diameter from 60 to 150 nm, besides a transition from a single domain
(SD) state to a pseudo SD state, an increase in the reversible magnetization component of the NWs from 11% to
24% occurred.
tags: FeCoNi nanowires FORC diagrams Magnetostatic interactions Reversible magnetization