| Allgemeine Angaben |
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| Condensed Matter Physics II | | |
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| Vorlesung mit integrierter Übung |
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| Angaben zur Abhaltung |
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If you did not receive an e-mail invitation to your s-mail account by today, April 14, to participate at the first technical meeting on April 17, 10:00 am, please send an e-mail to michely@ph2.uni-koeln.de
Comprehensive introduction to the basic principles and experimental methods of condensed matter physics. Examples of current research will be discussed.
The entire course (I & II, given in 2 semesters) covers the following topics: crystal structure and binding, reciprocal lattice and diffraction, lattice dynamics, electronic structure and Fermi surface, transport, semiconductors, optical properties, magnetism, superconductivity, and correlated electrons.
Due to mobility restriction caused by the coranavirus pandemie,
the Condensed Mater II lecture with integrated
problem solving class will be an online course in the current summer semester.
There will be a short test lecture on Friday, April 17, 10:00 am,
to discuss procedures and technical issues.
The lecture will start offically on Wednesday, April 22, 10:00 am.
In order to be able to attend the lectures you need to register via KLIPS,
or for Bonn students via ECampus. Also direct registration via ILIAS will be possible starting from April 1.
You will then receive an invitation to attend the test lecture and the lecture in time by e-mail.
Lecture and problem solving class will have a synchronous format with the possibility to ask questions and to discuss.
In order to be able to actively particpate you need a computer with internet access, a loudspeaker and microphone (or a headset).
A webcam or built-in lap-top camera are recommended, but not mandatory.
The lecture will also be made available as a stream via ILIAS, together with written lecture notes.
Online lectures take place Wednesdays and Fridays at 10:00.
The integrated problem solving class starts on May 8 (May 1 is a holiday), at 10:50.
Problem sheets are available via ILIAS one week before the discussion in the problem solving class. |
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| Für die Anmeldung zur Teilnahme müssen Sie sich in KLIPS 2.0 als Studierende*r identifizieren. |
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| Angaben zur Prüfung |
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| siehe Stellung im Studienplan |
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| Zusatzinformationen |
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N. W. Ashcroft, N. D. Mermin: Solid State Physics
C. Kittel: Introduction to Solid State Physics
R. Gross, A. Marx: Festkörperphysik
J. Sólyom: Fundamentals of the Physics of Solids
H. Ibach, H. Lüth: Solid State Physics
K. Kopitzki, P. Herzog: Einführung in die Festkörperphysik
C. Hunklinger: Festkörperphysik
Oxford Master Series in Condensed Matter Physics, e.g. on band theory
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