Teaching

Materials Science (Materialwissenschaften)

Instructors: Univ.-Prof. Dr. Hans-Joachim Elmers
Shortname: 08.128.722
Course No.: 08.128.722
Course Type: Vorlesung/Übung

Requirements / organisational issues

Bachelor in Physics or Materials Science

Anwesenheitspflicht

Excercises are cumpulsory for the course.

Digital teaching

Selected lectures will be given in online format.

Recommended reading list

E. Kneller, Ferromagnetismus, Berlin 1962
S. Chikazumi, Physics of Magnetism, New York 1964
S. Chikazumi, Physics of Ferromagnetism, Oxford, 1997
M. Getzlaff, Fundamentals of Magnetism, Springer, 2007
Joachim Stöhr, Hans Christoph Siegmann, Magnetism, Springer, 2006

A. Hubert and R. Schäfer, Magnetic Domains, Heidelberg, 1998

A. Aharoni, Introduction to the Theory of Ferromagnetism, Intern. Ser. Monographs on Physics, Oxford 1996

B. Heinrich and J. A. C. Bland (eds.), Ultrathin Magnetic Structures, Berlin 1994

U. Gradmann, Magnetism in Ultrathin Transition Metal Films, in K. H. J. Buschow, Handbook of Magnetic Materials, Amsterdam 1993

B. Hillebrands and K. Ounadjela (eds.), Spin Dynamics in Confined Magnetic Structures I-III, Springer, Berlin 2001.

Handbook of Spintronics, Y. Xu, D. Awschalom, J. Nitta, Springer 2015

Heusler Alloys, C. Felser, A. Hirohata, Springer 2015.

Contents

This course focusses on the material science of magnetic materials. The course teaches basic models of ferromagnetism, antiferromagnetism and other magnetic phenomena. The course further introduces into various magnetic material properties. Novel spintronics devices require tailored  material properties. In-depth knowledge of the origin of magnetic material properties helps to understand the pathways of improving materials for specific applications.

Dates

Date (Day of the week)	Time	Location
04/18/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
04/20/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
04/25/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
04/27/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/02/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/04/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/09/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/11/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/16/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/23/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/25/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
05/30/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/01/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/06/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/13/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/15/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/20/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/22/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/27/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
06/29/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/04/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/06/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/11/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/13/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/18/2023 (Tuesday)	08:15 - 09:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik
07/20/2023 (Thursday)	10:15 - 11:45	01 128 Galilei-Raum 2413 - Neubau Physik/Mathematik