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Master Program Materials Science (PO 2016)


Wintersemester 2018/19


1a Basics of Materials Science I

Materials Physics [3 SWS]
H. Karl
Materials Physics (Tutorial) [1 SWS]
H. Karl
Materials Chemistry [3 SWS]
H. Höppe
Materials Chemistry (Tutorial) [1 SWS]
H. Höppe

1b Basics of Materials Science II

Surfaces and Interfaces [3 SWS]
S. Horn, A. Ullrich
Surfaces and Interfaces (Tutorial) [1 SWS]
S. Horn, A. Ullrich
Chemical Physics I [3 SWS]
W. Scherer
Chemical Physics I (Tutorial) [1 SWS]
W. Scherer

2 Methods in Materials Science

Method Course: Electronics for Physicists and Materials Scientists [4 SWS]
A. Hörner
Method Course: Electronics for Physicists and Materials Scientists (Practical Course) [3 SWS]
A. Hörner
Method Course: Functional Silicate-analogous Materials (Practical Course) [6 SWS]
H. Höppe
Method Course: Optical Properties of Solids [2 SWS]
J. Deisenhofer
Method Course: Optical Properties of Solids (Practical Course) [4 SWS]
J. Deisenhofer
Method Course: Modern Solid State NMR Spectroscopy [2 SWS]
L. Wüllen
Method Course: Modern Solid State NMR Spectroscopy (Practical Course) [4 SWS]
L. Wüllen
Method Course: Infrared Microspectroscopy under Pressure [2 SWS]
C. Kuntscher
Method Course: Infrared Microspectroscopy under Pressure (Practical Course) [4 SWS]
C. Kuntscher
Method Course: Tools for Scientific Computing [2 SWS]
G.-L. Ingold
Method Course: Tools for Scientific Computing (Practical Course) [4 SWS]
G.-L. Ingold

3a Conducting and Presenting Scientific Work - Seminar

Introduction to Materials (Seminar) [2 SWS]
F. Haider, J. Deisenhofer, R. Horny

4 Materials Science - Major Topic - Physics of Materials

Nanostructures / Nanophysics [4 SWS]
H. Krenner

4 Materials Science - Major Topic - Engineering of Materials

Fiber Reinforced Composites: Processing and Materials Properties [3 SWS]
J. Moosburger-Will
Fiber Reinforced Composites: Processing and Materials Properties (Tutorial) [1 SWS]
J. Moosburger-Will
Non-Destructive Testing [3 SWS]
M. Sause
Non-Destructive Testing (Tutorial) [1 SWS]
M. Sause

5 Materials Science Elective Topic (PO16)

Low Temperature Physics [3 SWS]
R. Tidecks
Low Temperature Physics (Tutorial) [1 SWS]
R. Tidecks
Physics of Thin Films [4 SWS]
G. Hammerl
Solid State Spectroscopy with Synchrotron Radiation and Neutrons [3 SWS]
C. Kuntscher
Solid State Spectroscopy with Synchrotron Radiation and Neutrons (Tutorial) [1 SWS]
C. Kuntscher
Nanostructures / Nanophysics [4 SWS]
H. Krenner
Oxidation and Corrosion [4 SWS]
F. Haider
Oxidation and Corrosion (Tutorial) [1 SWS]
F. Haider
Method Course: Tools for Scientific Computing [2 SWS]
G.-L. Ingold
Method Course: Tools for Scientific Computing (Practical Course) [4 SWS]
G.-L. Ingold
Fiber Reinforced Composites: Processing and Materials Properties [3 SWS]
J. Moosburger-Will
Fiber Reinforced Composites: Processing and Materials Properties (Tutorial) [1 SWS]
J. Moosburger-Will
Non-Destructive Testing [3 SWS]
M. Sause
Non-Destructive Testing (Tutorial) [1 SWS]
M. Sause
Physics of Cells [2 SWS]
C. Westerhausen
Physics of Cells (Tutorial) [2 SWS]
C. Westerhausen
Surfaces and Interfaces [3 SWS]
S. Horn, A. Ullrich
Surfaces and Interfaces (Tutorial) [1 SWS]
S. Horn, A. Ullrich
Chemical Physics I [3 SWS]
W. Scherer
Chemical Physics I (Tutorial) [1 SWS]
W. Scherer
Method Course: Electronics for Physicists and Materials Scientists [4 SWS]
A. Hörner
Method Course: Electronics for Physicists and Materials Scientists (Practical Course) [3 SWS]
A. Hörner
Method Course: Optical Properties of Solids [2 SWS]
J. Deisenhofer
Method Course: Optical Properties of Solids (Practical Course) [4 SWS]
J. Deisenhofer
Method Course: Modern Solid State NMR Spectroscopy [2 SWS]
L. Wüllen
Method Course: Modern Solid State NMR Spectroscopy (Practical Course) [4 SWS]
L. Wüllen
Method Course: Functional Silicate-analogous Materials (Practical Course) [6 SWS]
H. Höppe
Method Course: Infrared Microspectroscopy under Pressure [2 SWS]
C. Kuntscher
Method Course: Infrared Microspectroscopy under Pressure (Practical Course) [4 SWS]
C. Kuntscher
Fundamentals of plasma material interactions [2 SWS]
M. Wischmeier
Analog Electronics for Physicists and Materials Scientists [4 SWS]
A. Hörner
Symmetry concepts and their applications in solid state physics and materials science [3 SWS]
I.á. Kézsmárki
Symmetry concepts and their applications in solid state physics and materials science (Tutorial) [1 SWS]
I.á. Kézsmárki