Students know the fundamentals of electromagnetic wave propagation and have a sound background for a broad spectrum of dielectric phenomena. They are able to analyze materials requirements and have the competence to select materials for different kinds of applications.
Leistungsnachweis
Oral talk of 45 min
Online/Digitale Veranstaltung
Veranstaltung wird online/digital abgehalten.
Hauptunterrichtssprache
englisch
Literaturhinweise
F. Kremer and A. Schönhals (eds.), Broadband Dielectric Spectroscopy (Springer, Berlin, 2002).
F. Kremer and A. Loidl (eds.), The scaling of relaxation processes (Springer, Cham, 2018).
A.K. Jonscher, Dielectric Relaxations in Solids (Chelsea Dielectrics Press, London, 1983).
C.J.F. Böttcher and P. Bordewijk, Theory of electric polarisation Vol II (Elsevier, Amsterdam, 1973).
J. Ross Macdonald, Impedance Spectroscopy (John Wiley and Sons, New York, 1987).
S.R. Elliott, Physics of Amorphous Materials (Longman, 1990)
A.J. Moulson and J.M. Herbert, Electroceramics (Wiley, Hoboken, 2003).
Organisation:
The lecture will be done in two parts: part 1, by Peter Lunkenheimer and part 2, by Stephan Krohns. In the first part, sets of PowerPoint slides with audio comments will be provided, and occasional Zoom sessions for questions will be offered. In the second part, lectures will be held via Zoom.
Examinations:
As noted in the handbook of modules, the examination for this lecture will be an oral talk of 45 min. The talks will either extend topics, already treated in the lecture, or they will be about additional topics in the field of dielectric materials. The talks will be given towards the end of the semester and we will provide a list of available topics. They will be given in presence in room 403/S and the other students will participate via Zoom.
Anmelderegeln
Diese Veranstaltung gehört zum Anmeldeset "Zeitgesteuerte Anmeldung: Dielectric Materials".