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Enhancing the Squareness and Bi-Phase Magnetic Switching of Co 2 FeSi Microwires for Sensing Application.

Authors :
Salaheldeen M
Wederni A
Ipatov M
Zhukova V
Lopez Anton R
Zhukov A
Source :
Sensors (Basel, Switzerland) [Sensors (Basel)] 2023 May 26; Vol. 23 (11). Date of Electronic Publication: 2023 May 26.
Publication Year :
2023

Abstract

In the current study we have obtained Co <subscript>2</subscript> FeSi glass-coated microwires with different geometrical aspect ratios, ρ = d/D <subscript>tot</subscript> (diameter of metallic nucleus, d and total diameter, D <subscript>tot</subscript> ). The structure and magnetic properties are investigated at a wide range of temperatures. XRD analysis illustrates a notable change in the microstructure by increasing the aspect ratio of Co <subscript>2</subscript> FeSi-glass-coated microwires. The amorphous structure is detected for the sample with the lowest aspect ratio ( ρ = 0.23), whereas a growth of crystalline structure is observed in the other samples (aspect ratio ρ = 0.30 and 0.43). This change in the microstructure properties correlates with dramatic changing in magnetic properties. For the sample with the lowest ρ -ratio, non-perfect square loops are obtained with low normalized remanent magnetization. A notable enhancement in the squareness and coercivity are obtained by increasing ρ -ratio. Changing the internal stresses strongly affects the microstructure, resulting in a complex magnetic reversal process. The thermomagnetic curves show large irreversibility for the Co <subscript>2</subscript> FeSi with low ρ -ratio. Meanwhile, if we increase the ρ -ratio, the sample shows perfect ferromagnetic behavior without irreversibility. The current result illustrates the ability to control the microstructure and magnetic properties of Co <subscript>2</subscript> FeSi glass-coated microwires by changing only their geometric properties without performing any additional heat treatment. The modification of geometric parameters of Co <subscript>2</subscript> FeSi glass-coated microwires allows to obtain microwires that exhibit an unusual magnetization behavior that offers opportunities to understand the phenomena of various types of magnetic domain structures, which is essentially helpful for designing sensing devices based on thermal magnetization switching.<br />Competing Interests: The authors declare no conflict of interest.

Details

Language :
English
ISSN :
1424-8220
Volume :
23
Issue :
11
Database :
MEDLINE
Journal :
Sensors (Basel, Switzerland)
Publication Type :
Academic Journal
Accession number :
37299836
Full Text :
https://doi.org/10.3390/s23115109