H. Yakabchuk scite author profile

H. Yakabchuk

5Publications

90Citation Statements Received

60Citation Statements Given

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161

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Heinrich Heine University Düsseldorf

Publications

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Very large magnetoimpedance effect in FeCoNi ferromagnetic tubes with high order magnetic anisotropy

Kurlyandskaya

Yakabchuk

Kisker

et al. 2001

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Articles you may be interested inGiant magneto-impedance effect in amorphous ferromagnetic wire with a weak helical anisotropy: Theory and experimentThe extraordinarily high ͑up to 800% magnetoimpedance ratio͒ and sensitive magnetoimpedance effect has been found and studied in FeCoNi magnetic tubes electroplated onto CuBe nonmagnetic wire at frequency of about 1 MHz order. Special annealing was done in order to induce magnetic anisotropy. The high harmonic response has been studied, and the harmonics show larger variations with the external magnetic field than the fundamental. This huge sensitivity of the harmonics ͑up to an order of the tens of thousands %/Oe͒ is promising in regard to the increase of the sensitivity of giant magnetoimpedance sensors. To explain the experiment results, we calculated the high frequency transverse susceptibility taking into account the magnetic anisotropy of first and second orders. The susceptibility is extremely high at the points of orientational phase transitions in the magnetic layer which gives rise to strong nonlinear effects.

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Nonlinear Magnetoimpedance Effect in FeCoNi Ferromagnetic Tubes

Kurlyandskaya

Yakabchuk

Kisker

et al. 2001

Chinese Phys. Lett.

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Non-linear giant magnetoimpedance

Kurlyandskaya

Kisker

Yakabchuk

et al. 2002

Journal of Magnetism and Magnetic Materials

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Detektion superparamagnetischer Marker mittels GMI-Sensorik (Detection of superparamagnetic markers with GMI-Sensors)

Bethke¹,

Yakabchuk²,

Tarasenko³

et al. 2003

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Der Riesen-Magnetoimpedanz-Effekt (GMI) beschreibt die starke Abhängigkeit der Impedanz weichmagnetischer Mikrodrähte oder dünner Schichtsysteme von der Größe eines angelegten, relativ kleinen externen Feldes. Die Impedanzänderung kann bei mehreren hundert Prozent liegen. Fast alle erdenklichen Anwendungen sind vorgeschlagen worden, einige werden bereits angewandt, z.B. das Messen von extrem kleinen Feldern. Zu Montage- und Integrationszwecken eignen sich Dünnschicht-Systeme besser als Drähte. Daher haben wir uns auf die Entwicklung und Charakterisierung von dünnen Filmen konzentriert. Die Sensoren bestehen aus gesputterten FeCuNbSiB/Cu/FeCuNbSiB-Trilagensystemen. Bei diesen Strukturen erhält man im Gegensatz zu GMI-Drähten eine ausgeprägte Richtungsanisotropie bezüglich des angelegten externen Magnetfeldes. Wir diskutieren die verschiedenen Möglichkeiten der GMI-Messung und des Sensoraufbaus und zeigen, dass mit diesem Sensor kleine Mengen superparamagnetischer Partikel detektiert werden können.

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Giant magneto impedance in electroplated NiFeMo/Cu microwires

Velleuer

Muñoz

Yakabchuk

et al. 2007

Journal of Magnetism and Magnetic Materials

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H. Yakabchuk

Very large magnetoimpedance effect in FeCoNi ferromagnetic tubes with high order magnetic anisotropy

Nonlinear Magnetoimpedance Effect in FeCoNi Ferromagnetic Tubes

Non-linear giant magnetoimpedance

Detektion superparamagnetischer Marker mittels GMI-Sensorik (Detection of superparamagnetic markers with GMI-Sensors)

Giant magneto impedance in electroplated NiFeMo/Cu microwires

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