Universität Wien
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520017 VO Magnonics (2022S)

3.00 ECTS (2.00 SWS), SPL 52 - Doktoratsstudium Physik
Moodle

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Details

Sprache: Englisch

Prüfungstermine

Lehrende

Termine (iCal) - nächster Termin ist mit N markiert

  • Dienstag 08.03. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 15.03. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 22.03. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 29.03. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 05.04. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 26.04. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 03.05. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 10.05. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 17.05. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 24.05. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 31.05. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 14.06. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG
  • Dienstag 21.06. 09:00 - 10:30 Seminarraum Physik Sensengasse 8 EG

Information

Ziele, Inhalte und Methode der Lehrveranstaltung

A disturbance in the local magnetic order can propagate in a magnetic material in the form of a wave. This wave was first predicted by F. Bloch in 1929 and was named a spin wave because it is related to a collective excitation of the electron spin system in magnetically ordered solid bodies. The quanta of spin waves are referred to as magnons. The field of science that refers to information transport and processing by spin waves is known as magnonics

The course gives an introduction to various aspects of spin-wave physics. The course contains the following topics: Basics of magnetism, magnetization precession and FMR, magnetic materials, dipolar and exchange spin waves, quantized spin waves, basics of microwave technique, and basics of magneto-optical techniques.

The course is designed for Students interested in experimental solid-state physics and beyond. In particular, magnetism and spintronics are in focus.

Art der Leistungskontrolle und erlaubte Hilfsmittel

The course will be assessed via a written examination. Course materials, textbooks, and smartphones will be allowed in the exam. The examination will focus on the understanding of spin-wave physical principles and phenomena.

Mindestanforderungen und Beurteilungsmaßstab

There are no special pre-requirements for taking part in this course. Participation in VO “Advanced Materials” in summer semesters or M-CORE 10 VO Condensed Matter Physics (2021W) is preferable but not obligatory. The course is also directly related to the LP Praktikum: Solid state physics: Materials and Methods for Bachelor's Students (in winter semesters) and LP Solid state physics: Research and Applications for Master's Students (in winter semesters).

The standard grating on the examination will be used:
50% of the total points at the final exam.
50 - 62.49% grade 4
62.5 - 74.99% grade 3
75 - 87.49% grade 2
87.5 - 100% grade 1

Prüfungsstoff

Lecture scripts and textbooks. The lecture potentially might also be uploaded to YouTube.

Literatur

A. G. Gurevich and G. A. Melkov, Magnetization oscillations and waves. Boca Raton: CRC Press, 1996.
D. D. Stancil and A. Prabhakar, Spin Waves: Theory and applications. Springer, 2009.
Selected review articles.

Zuordnung im Vorlesungsverzeichnis

M-ERG

Letzte Änderung: Mi 22.06.2022 08:50