Title :
Integration of Magnetoresistive Sensors With Atomic Force Microscopy Cantilevers for Scanning Magnetoresistance Microscopy Applications
Author :
Costa, Margaret ; Gaspar, Joao ; Ferreira, Ricardo ; Paz, Elvira ; Fonseca, Helder ; Martins, Marco ; Cardoso, Susana ; Freitas, Paulo P.
Author_Institution :
Int. Iberian Nanotechnol. Lab., Braga, Portugal
Abstract :
This paper reports on the development and the fabrication of a novel atomic force microscopy cantilever with integrated magnetoresistive sensors at its tip for scanning magnetoresistance applications. A 2-D scan over an area of 100 × 100 μm2 simultaneously generates topographic and magnetic maps with a spatial resolution better than 1 μm. The magnetic field is detected using two spin valve sensors with a field sensitivity of 61.33 μV/Oe. The device operation is demonstrated with a ferromagnetic test feature of 1 × 20 μm2. The results demonstrate that this scanning technique is capable of accurately quantifying the absolute magnitude of magnetic stray fields.
Keywords :
atomic force microscopy; cantilevers; ferromagnetic materials; magnetic field measurement; magnetic sensors; magnetoresistance; magnetoresistive devices; spin valves; 2D scan; atomic force microscopy cantilever; ferromagnetic test; integrated magnetoresistive sensor; magnetic map; magnetic stray field detection; scanning magnetoresistance microscopy application; spin valve sensor; Magnetic force microscopy; Magnetic resonance imaging; Magnetic sensors; Magnetic tunneling; Microscopy; Sensor phenomena and characterization; MR sensor cantilever; Magnetic imaging; Scanning magnetoresistance microscopy; magnetoresistive (MR) sensor cantilever; scanning magnetoresistance microscopy (SMRM); spin valve (SV) sensor; spin valve sensor;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2448612
