Magnetoimpedance Effect in the Ribbon-Based Patterned Soft Ferromagnetic Meander-Shaped Elements for Sensor Application

Yang, Zhen; Членова, А. А.; Голубева, Е. В.; Volchkov, S. O.; Guo, Pengfei; Shcherbinin, S. V.; Kurlyandskaya, G.V.

doi:10.3390/s19112468

Cited by 18 publications

(12 citation statements)

References 34 publications

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“…The annealing was performed in an argon atmosphere using a gradient temperature increase to reach an internal chamber temperature of 350 • C. At this temperature, a magnetic field of 460 Oe, parallel to the short direction of the ribbon, was applied and maintained for two hours before gradually cooling down to room temperature. Details of the design and micropatterning fabrication method have been reported previously [29][30][31]. However, here, the difference from previous reports is that the micropatterned ribbon is peeled off from the glass substrate via dissolving AB glue.…”

Section: Sample Preparationmentioning

confidence: 99%

Comparison of magnetoimpedance behaviors in meander CoFeNiSiB amorphous ribbon for deformation sensing applications

Yang,

Liu,

Luo

et al. 2023

J. Phys.: Condens. Matter

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In this work, micro-ribbon strips and meanders based on CoFeNiSiB amorphous ribbons were fabricated by using the lithography technique and chemical etching. Flat and curved holders with different radius of curvature were obtained via 3D printing techniques for GMI testing. Longitudinal and transverse GMI (LGMI and TGMI) behaviors of micro-ribbon sensors in different bending directions and degrees were systematically investigated. The results show the LGMI and TGMI effects of micro-ribbon meanders with one turn is most sensitive to bending. It can be used in the development of deformation sensors. In addition, there is a linear range of field in the LGMI and TGMI curves of micro ribbons under different bending conditions, and the sensitivity of micro-ribbon sensors shows no significant change in the range. In particular, the micro-ribbon meanders with three turns are the least sensitive to bending deformation and can be used to develop stable and flexible GMI sensors for wearable electronics devices.

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Section: Sample Preparationmentioning

confidence: 99%

Comparison of magnetoimpedance behaviors in meander CoFeNiSiB amorphous ribbon for deformation sensing applications

Yang,

Liu,

Luo

et al. 2023

J. Phys.: Condens. Matter

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“…Es interesante señalar que esa interacción es un ingrediente esencial en el surgimiento del efecto Hall extraordinario, como ya se comentó, así como del MCE. El efecto MGI ha propiciado que los vidrios metálicos magnetoimpedativos se consideren promisorios en el desarrollo de sensores de alta sensibilidad (Melnikov et al, 2022;Zou et al, 2019;Yang et al, 2019;Buznikov & Kurlyandskaya, 2019;Rosales-Rivera et al, 2007).…”

Section: Introductionunclassified

Exponentes críticos estáticos, efectos de anisotropía, Hall y magneto-calórico, e interacciones magnéticas en cintas de aleaciones basadas en FeCr, FeCo y MnFe

Rosales‐Rivera

2022

Rev. Acad. Colomb. Cienc. Ex. Fis. Nat.

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Se presenta aquí un estudio comparativo de los exponentes críticos (β, γ, δ), de la temperatura crítica Tc, la anisotropía magnética, el efecto Hall y el magneto-calórico, así como las interacciones agnéticas para las aleaciones [(Fe50Co50)75B20Si5]96Nb4, Fe65.5Cr8Cu1Nb3Si13.5B9, y Mn50Ni36Fe5Sn9, preparadas mediante la técnica denominada hilado en estado de fusión (meltspinning). Los anteriores parámetros críticos y el efecto magneto-calórico se determinaron a partir de mediciones de magnetización. Los valores (β, δ, TC) para [(Fe50Co50)75B20Si5]96Nb4 y Fe65.5Cr8Cu1Nb3Si13.5B9 fueron (0,34 ± 0,09; 4,50 ± 0,45; 660 ± 30 K), (0,52 ± 0,04; 3,62 ± 0,06; 481 ± 2 K), respectivamente, y para Mn50Ni36Fe5Sn9 fue (0,51 ± 0,03; 2,97 ± 0,03; 318 ± 8 K). Las curvas de resistividad Hall Vs. H exhiben un campo de inflexión HS, campo por debajo del cual se observan los efectos Hall ordinario y extraordinario. Por encima de HS, el efecto Hall ordinario predomina, en tanto que el extraordinario no se observa más. El valor de HS para [(Fe50Co50)75B20Si5]96Nb4 y Fe65.5Cr8Cu1Nb3Si13.5B9 fue 8 kOe y 4,42 kOe, respectivamente, y para Mn50Ni36Fe5Sn9 fue 1,84 kOe. El número de portadores de carga nc se determinó para H > HS, y su valor para Fe65.5Cr8Cu1Nb3Si13.5B9 y Mn50Ni36Fe5Sn9 fue 2,71 x 1019 cm-3 y 129 x 1019 cm-3, respectivamente. El cambio en la entropía magnética y la capacidad de enfriamiento relativa debido a un cambio de campo de 10 kOe se evaluaron y sus valores máximos en la proximidad de TC para [(Fe50Co50)75B20Si5]96Nb4, Fe65.5Cr8Cu1Nb3Si13.5B9, y Mn50Ni36Fe5Sn9 fueron (0,6; 0,75; 0,5) Jkg-1K-1 y (57,4; 56,6; 25,1) Jkg-1, respectivamente. Se analizaron los posibles efectos de las interacciones de intercambio y espín-orbita en los resultados anteriores.

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“…It will be possible to find an approximation of the real distribution of magnetic permeability by modeling the frequency dependences of the impedance in cylindrical conductors at different radial distributions of magnetic permeability and specific conductivity and comparing the modeled dependences with the experimental ones. In future investigations, it will be possible to take into account that the cross-section of the wires, in reality, is not strictly circular, and also to study planar MI elements, such as amorphous ribbons and multilayer films, which, in particular, can be used in the tasks of a bio-detection [ 32 , 33 ].…”

Section: Introductionmentioning

confidence: 99%

The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment

Bukreev

Derevyanko

Moiseev

et al. 2022

Sensors

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A description of the method of magnetoimpedance tomography is presented. This method is based on the analysis of the frequency dependences of the impedance obtained in magnetic fields of various strengths. It allows one to determine the distribution of electrical and magnetic properties over the cross-section of the conductor, as well as their dependence on the magnetic field. The article proposes a specific approach to the implementation of the magnetoimpedance tomography method based on computer modeling by the finite element method. The results of this method are presented for composite Cu98Be2/Fe20Co6Ni74 wires of the “highly conductive core–magnetically soft coating” type and amorphous rapidly quenched Co66Fe4Nb2.5Si12.5B15 wires.

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Magnetoimpedance Effect in the Ribbon-Based Patterned Soft Ferromagnetic Meander-Shaped Elements for Sensor Application

Cited by 18 publications

References 34 publications

Comparison of magnetoimpedance behaviors in meander CoFeNiSiB amorphous ribbon for deformation sensing applications

Comparison of magnetoimpedance behaviors in meander CoFeNiSiB amorphous ribbon for deformation sensing applications

Exponentes críticos estáticos, efectos de anisotropía, Hall y magneto-calórico, e interacciones magnéticas en cintas de aleaciones basadas en FeCr, FeCo y MnFe

The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment

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