Detection of a magnetic bead by hybrid nanodevices using scanning gate microscopy

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Abstract

Hybrid ferromagnetic(Py)/non-magnetic metal(Au) junctions with a width of 400 nm are studied by magnetotransport measurements, magnetic scanning gate microscopy (SGM) with a magnetic bead (MB) attached to the probe, and micromagnetic simulations. In the transverse geometry, the devices demonstrate a characteristic magnetoresistive behavior that depends on the direction of the in plane magnetic field, with minimum/maximum variation when the field is applied parallel/perpendicular to the Py wire. The SGM is performed with a NdFeB bead of 1.6 μm diameter attached to the scanning probe. Our results demonstrate that the hybrid junction can be used to detect this type of MB. A rough approximation of the sensing volume of the junction has the shape of elliptical cylinder with the volume of ∼1.51 μm3. Micromagnetic simulations coupled to a magnetotransport model including anisotropic magnetoresistance and planar Hall effects are in good agreement with the experimental findings, enabling the interpretation of the SGM images.

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APA

Corte-León, H., Krzysteczko, P., Marchi, F., Motte, J. F., Manzin, A., Schumacher, H. W., … Kazakova, O. (2016). Detection of a magnetic bead by hybrid nanodevices using scanning gate microscopy. AIP Advances, 6(5). https://doi.org/10.1063/1.4943147

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