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14756.2025 20S 2SWS VO Experimental Methods in Condensed Matter Physics   Hilfe Logo

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Allgemeine Angaben
Experimental Methods in Condensed Matter Physics 
14756.2025
Vorlesung
2
Sommersemester 2020
... alle LV-Personen
Department Physik
(Kontakt)
Anzahl der Zuordnungen zu laufenden und auslaufenden Studien ausblenden 
Studienart/Studienplan 
SPO-V
Zuordnung zu Modul 
Art Empf.
Sem.
ECTS
Credits
Prüfungsart Äquiv. Vorauss.
 
laufend 2019/20
Masterstudium
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
88 130 Physics (HG-NRW)
20152
--
Angaben zur Abhaltung
The aim of this course is to give an overview of the methods used in modern experimental condensed matter physics. The contents of the course relate to synthesis, structural characterization, transport properties, and spectroscopy. Specific consideration will be given to the methods that have been developed and are used at the University of Cologne.

In SS20 this lecture will be given in online format
Please consult Ilias for more detailed information

Topics

20-Apr-2020 Lorenz
Crystal growth

27-Apr-2020 Lorenz
Thermodynamic experiments

04-May-2020 Braden
Diffraction

11-May-2020 Hemberger
Dynamic susceptibilits

18-May-2020 Grueninger
Optical spectroscopy

25-May-2020 Grueninger
Inelastic light and X-ray scattering

08-Jun-2020 Grueneis
Angle resolved photoemission

15-Jun-2020 Ando
Thin film devices

22-Jun-2020 Michely
Scanning probe microscopy (STM, AFM)

29-Jun-2020 Michely
Scanning tunneling spectroscopy (STS)

06-Jul-2020 Lindfors-Vrejoiu
Pulsed laser deposition, Magneto-optical spectroscopy

13-Jul-2020 van Loosdrecht
Ultrafast spectroscopy

In addition to these lectures, we will organize lab tours in the II. Phys. Inst.
keine
Englisch
Details
Für die Anmeldung zur Teilnahme müssen Sie sich in KLIPS 2.0 als Studierende*r identifizieren.
Angaben zur Prüfung
siehe Stellung im Studienplan
Details
Details
k.A.
Zusatzinformationen
Crystal growth:
G. Dhanaraj, K. Byrappa, V. Prasad, and M. Dudley, eds., Springer Handbook of Crystal Growth (Springer, 2010).

Scattering:
C. Giacovazzo, Fundamentals of Crystallography (Oxford Science Publications, 1992)

Neutron scattering:
G.L. Squires, Thermal Neutron Scattering (Cambridge University Press, 1978)

Raman/optical spectroscopy:
Kuzmany: Solid-State Spectroscopy: An Introduction (Springer, 2009)

Ultrafast spectroscopy:
Optical Techniques for Solid-State Materials Characterization, eds. Rohit P. Prasankumar, Antoinette J. Taylor, CRC press (2011). ISBN 9781439815373.

Scanning probe techniques:
Bert Voigtländer: Scanning Probe Microscopy (Springer 2015)

Photoelectron Spectroscopy:
S. Hüfner, Photoelectron Spectroscopy Principles and Applications (Springer, 1996)

NEXAFS/XMCD:
Joachim Stohr ,NEXAFS Spectroscopy (Springer, 1996)
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