Near Field Magneto-Optical Circular Dichroism Using an Apertureless Probe

We present an original magneto-optical Scanning Near-field-Optical Microscope (SNOM) configuration, using an apertureless probe, and devoted to the characterization in transmission of magnetic samples. Our experimental device provides simultaneously the near and far field optical images, in Magneto-...

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Veröffentlicht in:Japanese Journal of Applied Physics 1999-06, Vol.38 (6A), p.L655
Hauptverfasser: Olivier Bergossi, Olivier Bergossi, Hervé Wioland, Hervé Wioland, Sylvain Hudlet, Sylvain Hudlet, Régis Deturche, Régis Deturche, Pascal Royer, Pascal Royer
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container_issue 6A
container_start_page L655
container_title Japanese Journal of Applied Physics
container_volume 38
creator Olivier Bergossi, Olivier Bergossi
Hervé Wioland, Hervé Wioland
Sylvain Hudlet, Sylvain Hudlet
Régis Deturche, Régis Deturche
Pascal Royer, Pascal Royer
description We present an original magneto-optical Scanning Near-field-Optical Microscope (SNOM) configuration, using an apertureless probe, and devoted to the characterization in transmission of magnetic samples. Our experimental device provides simultaneously the near and far field optical images, in Magneto-optical Circular Dichroism mode (MCD), and the sample surface topography. The preliminary near field images of an iron garnet test-sample reveal surface modifications in the magnetic domain distribution, unresolved in the far field image, and unrelated to the topographic features. The near field image resolution reaches 240 nm, corresponding to the theoretically estimated size of the smallest magnetic structures.
doi_str_mv 10.1143/JJAP.38.L655
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title Near Field Magneto-Optical Circular Dichroism Using an Apertureless Probe
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