Switching of magnetic domain structure in permalloy microstructures using 2D electron gas.

Andrey Belkin; Jan Fedor; Piotr Pankowski; Valentyn Novosad; Goran Karapetrov; Vladimir Cambel; Dagmar Gregusova; Robert Kudela

Switching of magnetic domain structure in permalloy microstructures using 2D electron gas.

ORAL

Abstract

We demonstrate the ability to monitor and change the magnetization state of microscopic permalloy element deposited on the active area of a 2DEG Hall probe. While sweeping the external magnetic field recorded Hall voltage signal provides information on local magnetization of the ferromagnetic element. Simultaneously, the exact magnetization state of permalloy element is imaged with a magnetic force microscope. Applying short, but intense current pulses through the Hall probe we can change the magnetization state of the permalloy ellipse. Such hybrid semiconductor-ferromagnet structures could offer novel direction for non-volatile memory storage elements.

March 5, 2007, 1:06 PM – March 5, 2007, 1:18 PM

Authors

Andrey Belkin
- Argonne National Laboratory \& Illinois Institute of Technology
- MSD, Argonne National Laboratory and Illinois Institute of Technology
Jan Fedor
- MSD, Argonne National Laboratory
Piotr Pankowski
- MSD, Argonne National Laboratory
Valentyn Novosad
- Center for Nanoscale Materials and Materials Science Division, Argonne National Laboratory
- Argonne National Laboratory
- MSD, Argonne National Laboratory
Goran Karapetrov
- Argonne National Laboratory
- MSD, Argonne National Laboratory
- Argonne National Laboratory, Argonne, IL 60439
Vladimir Cambel
- Institute of Electrical Engineering, Slovakia
Dagmar Gregusova
- Institute of Electrical Engineering, Slovakia
Robert Kudela
- Institute of Electrical Engineering, Slovakia