Highly-localized, non-invasive magnetic sensing of multiferroic probes enabled by novel AFM-based characterization tools

High-resolution, non-invasive magnetic sensing of multiferroic samples enabled by novel AFM-based characterization tools

Due to their outstanding functional properties, multiferroic materials are highly promising for development and manufacturing of novel components for information technology with previously unattained, outstanding properties in terms of power savings and integration capability. The direct measurement and visualization of localized ferromagnetic domain transitions and domain walls in multiferroic materials with magnetoelectric coupling, which are caused by highly localized electric fields, should lead to a deeper understanding of these novel materials. These ambitious goals shall be tackled in the course of the project MagnifiSens combining competences in multiferroic materials research, numerical multiscale simulation of material properties, and high-resolution in situ correlative analysis by AFSEMTM-based microscopy.

Details

Duration 01/01/2019 - 31/12/2020
Funding FFG
Program Produktion der Zukunft
Department

Department for Integrated Sensor Systems

Center for Modeling and Simulating

Principle investigator for the project (Danube University Krems) habil. Dipl.-Ing. Dr. Thomas Schrefl
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