2011
DOI: 10.1007/s00339-011-6245-z
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Magnetoimpedance in soft magnetic amorphous and nanostructured wires

Abstract: The surface impedance tensor approach has been used to review the impedance response in a variety of amorphous and nanocrystallized wires. An experimental study on the torsion annealing effect on the magnetoimpedance (MI) behaviour for positive and negative magnetostriction amorphous wires of FeSiB and CoSiB compositions, respectively, has been carried out. Moreover, the influence of the onset nanocrystallization on the MI behaviour in Finemet-type alloys, with particular attention focussed on the case that th… Show more

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Cited by 10 publications
(5 citation statements)
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“…If m > j (m < j), then the impedance tends to infinity (zero) when f goes to infinity. Note that the error is minimum for the case of m = j and the zeros of J 1 are larger than J 0 according to the property established in (6). Thus, in the impedance described by (8), the influence of every zero b 0,i is canceled out by a higher pole b 1,i leading to a constant.…”
Section: The New Model Of the Sensormentioning
confidence: 93%
See 1 more Smart Citation
“…If m > j (m < j), then the impedance tends to infinity (zero) when f goes to infinity. Note that the error is minimum for the case of m = j and the zeros of J 1 are larger than J 0 according to the property established in (6). Thus, in the impedance described by (8), the influence of every zero b 0,i is canceled out by a higher pole b 1,i leading to a constant.…”
Section: The New Model Of the Sensormentioning
confidence: 93%
“…In particular, different electromagnetic materials have been used to fabricate magneto-impedance sensors based on single wire or multi-wires [5][6][7][8][9][10]. Moreover, several efforts have been realized to model and obtain an equivalent circuit that can be used to implement magneto-impedance sensors [11][12][13].…”
Section: Introductionmentioning
confidence: 99%
“…The ac longitudinal magnetization generates a voltage in the coil which is used as the output in off‐diagonal MI sensor. A sensitive off‐diagonal MI was realized in amorphous wires with circular or helical anisotropy , in ribbons with in‐plane anisotropy induced by annealing or field quenching , and in multilayers with spiral anisotropy .…”
Section: Principles Of Off‐diagonal MI Sensorsmentioning
confidence: 99%
“…In order to obtain a non‐zero μφz component, the static magnetization needs to be helical. This is realized in systems with a helical magnetic anisotropy induced, for example, by torque‐annealing and is used in inverse Wiedemann effect elements . In the case of a circumferential anisotropy, the application of a dc bias current is needed.…”
Section: Principles Of Off‐diagonal MI Sensorsmentioning
confidence: 99%
“…The magnetoimpedance (MI) effect is understood as a significant change of the impedance Z of a magnetically soft conductor upon the application of an external magnetic field. The MI effect has received a strong interest since its rediscovery 1, 2 due to its prospective applications in highly sensitive, small‐size and low‐cost magnetic sensors 3–9. This phenomenon can be understood in the frame of classical electrodynamics that at medium and high frequencies is described in terms of the skin‐depth effect that depends on magnetic permeability of the conductor 10.…”
Section: Introductionmentioning
confidence: 99%