1993
DOI: 10.1109/20.280966
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Magnetization processes in amorphous wires in orthogonal fields

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Cited by 43 publications
(20 citation statements)
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“…In the outer layer of the wire, an internal stress from quenching coupled with the negative magnetostriction results in a circumferential anisotropy and an alternate left and right circular domain structure [19]. In this case, the circular magnetization processes determining the MI behavior are very sensitive to the axial magnetic field [20,21]. Along with this, special types of anisotropy as a helical one can be established by a corresponding annealing treatment, which results in unusual asymmetric MI behavior and the so-called microwave activity in wire-based composite materials.…”
Section: Family Of MI Characteristicsmentioning
confidence: 97%
“…In the outer layer of the wire, an internal stress from quenching coupled with the negative magnetostriction results in a circumferential anisotropy and an alternate left and right circular domain structure [19]. In this case, the circular magnetization processes determining the MI behavior are very sensitive to the axial magnetic field [20,21]. Along with this, special types of anisotropy as a helical one can be established by a corresponding annealing treatment, which results in unusual asymmetric MI behavior and the so-called microwave activity in wire-based composite materials.…”
Section: Family Of MI Characteristicsmentioning
confidence: 97%
“…So, it has been reported that highly magnetostrictive amorphous wires show magnetization processes with large Barkhausen discontinuities [1][2][3][4][5][6][7][8]. In this particular magnetization process, the anisotropy distribution plays an important role: the anisotropy is parallel to the wire axis direction in central zone and it is in the radial direction in the zone close to surface.…”
Section: Introductionmentioning
confidence: 96%
“…A plausible mechanism explaining this behaviour was proposed in Ref. [1], which is based on the distribution of the anisotropy axes. The peak value drops considerably with increasing frequency indicating that the irreversible domain wall processes are strongly damped by eddy currents.…”
mentioning
confidence: 95%
“…On the other hand, the most of experiments of hysteresis in these materials are performed under quasi DC conditions [1][2][3]. In this paper, the circular hysteresis loops in CoFeSiB amorphous wires with glass cover have been measured for frequencies up to 250 kHz under the effect of H ex : The essential features of different magnetisation processes such as domain wall displacements (reversible and irreversible) and magnetisation rotation can be deduced by introducing the corresponding permeability parameters.…”
mentioning
confidence: 99%