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402-0564-00L 4 Credits DS D-MATH , D-PHYS
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Solid State Optics

Festkörperoptik

Does not take place this semester.
VVZ CR n/a

Last Updated: 2026-02-05 15:19:04

Abstract

The interaction of light with the condensed matter is the basic idea and principal foundation of several experimental spectroscopic methods. This lecture is devoted to the presentation of those experimental methods and techniques, which allow the study of the electrodynamic response of solids. I will also discuss recent experimental results on materials of high interest in the on-going solid-state physics research, like strongly correlated systems and superconductors.

Objective

The lecture will give a basic introduction to optical spectroscopic methods in solid state physics.

Content

Chapter 1 Maxwell equations and interaction of light with the medium Chapter 2 Experimental methods: a survey Chapter 3 Kramers-Kronig relations; optical functions Chapter 4 Drude-Lorentz phenomenological method Chapter 5 Electronic interband transitions and band structure effects Chapter 6 Selected examples: strongly correlated systems and superconductors

Resources

Lecture Notes

manuscript (in english) is provided.

Literature

F. Wooten, in Optical Properties of Solids, (Academic Press, New York, 1972) and M. Dressel and G. Gruener, in Electrodynamics of Solids, (Cambridge University Press, 2002).

General Information

Language
German
Levels
DS
Frequency
Every two years

Examination

Type
session examination
Mode
oral 20 minutes

Course Components

Type Title Time & Place Hours
lecture Festkörperoptik
Does not take place this semester.
No time listed 2 h weekly
exercise Festkörperoptik
Does not take place this semester.
No time listed 1 h weekly

Offered In