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Engineering of magnetic properties and domain wall dynamics in Fe-Ni-based amorphous microwires by annealing

V. Zhukova, A. Talaat, Paula Corte-León, J.M. Blanco, M. Ipatov, А. Zhukov

2020AIP Advances19 citationsDOIOpen Access PDF

Abstract

We present experimental studies related to the influence of annealing on domain wall (DW) dynamics and magnetic hysteresis of Fe-Ni-rich microwires. As-prepared and annealed Fe62Ni15.5Si7.5B15 and Fe49.6Ni27.9Si7.5B15 microwires present perfectly rectangular hysteresis loops and single DW propagation. DW velocity, v, DW mobility, S, and coercivity, Hc, of both studied microwires have been considerably affected after annealing. In Fe62Ni15.5Si7.5B15 microwires, we observed a gradual S increase with annealing time, tann, increasing. However, a non-monotonic S (tann) dependence was observed in Fe49.6Ni27.9Si7.5B15 microwires. We discussed observed dependencies in terms of different magnetoelastic anisotropy, domain walls stabilization, and different Curie temperatures of studied microwires.

Topics & Concepts

Annealing (glass)Condensed matter physicsCoercivityMaterials scienceAmorphous solidCurie temperatureMagnetic domainMagnetic hysteresisAnisotropyHysteresisDomain wall (magnetism)Magnetic anisotropyMagnetizationFerromagnetismMagnetic fieldCrystallographyComposite materialChemistryPhysicsOpticsQuantum mechanicsMetallic Glasses and Amorphous AlloysMagnetic Properties and ApplicationsMagnetic properties of thin films
Engineering of magnetic properties and domain wall dynamics in Fe-Ni-based amorphous microwires by annealing | Litcius