Micromagnetic Simulationen and Computational Design

01.04.2010 - 31.12.2013

Forschungsförderungsprojekt

There is an essential need for the deeper understanding of magnetic nanostructures to improve current and develop future magnetic devices. Besides magnetic recording and permanent magnets for energy efficient motors and generators, two new application areas are emerging: (1) The generation of microwave fields using nano-osciallators. (2) The use of magneto-elastic materials for wireless sensor applications. Both make use of dynamic magnetization processes, diffferent form data-storage. Since the fabrication of prototypes is both time and money consuming, the increasing computer power provides an improving means for the computational prediction and design of such devices. For both applications, the fundamental physics can be described with an augmented Lindau-Lifshitz-Gilbert equation (LLG). For an accurate simulation of spin-torque driven osciallators, the LLG equation is combined with a diffusion equation for the polarized charge carriers.

Personen

Projektleiter_in

Dirk Praetorius (E101)

Projektmitarbeiter_innen

Bernhard Bergmair (E101)
Thomas Führer (E101)
Gino Hrkac (E101)
Thomas Huber (E101)
Marcus Page (E101)

Institut

E101 - Institute of Analysis and Scientific Computing

Grant funds

WWTF Wiener Wissenschafts-, Forschu und Technologiefonds (National) Vienna Science and Technology Fund (WWTF)

Forschungsschwerpunkte

Computational Materials Science: 30%
Mathematical and Algorithmic Foundations: 40%
Modeling and Simulation: 30%

Schlagwörter

Deutsch	Englisch
Mikromagnetismus	micromagnetics
Landau-Lifshitz-Gilbert Gleichung	Landau-Lifshitz-Gilbert equation

Externe Partner_innen

Fachhochschule St. Pölten

Publikationen

Publikationsliste