Condensed Matter Physics
The course covers basic concepts of condensed matter physics such as crystal structures, the Drude model and the Sommerfeld theory, phonons, Bloch’s theorem, reciprocal space, the tight binding model, the nearly free electron model, energy bands and quasi-particles, semiconductors, and magnetism. An overview is given of the variety of physical properties that different materials exhibit, including optical, thermal, electrical, and magnetic effects. Experimental techniques for fundamental studies of materials are introduced.
This is a second cycle course given at half speed during daytime. This course can also be taken as a third cycle course.
Modules
This course consists of two parts:
Theory: The basic physical descriptions of material properties will be discussed, and how a material’s electronic and crystal structure governs their optical, thermal, electrical, and magnetic properties, and which physical models are best applied to mathematically describe the system
Experiment: Here you will explain, analyze and discuss experimental methods and interpret the corresponding measurement results in condensed matter physics.
Teaching Format
The teaching consists of seminars, group education, and obligatory laboratory exercises.
Assessment
Theory: The theory aspect of the course is examined through a final written examination and continual assessment
Experiment: The experimental aspect of the course is examined through a written and oral presentation of the laboratory exercises.
Examiner
“Solid State Physics,” by N. W. Ashcroft and N. D. Mermin, Saunders College Publishing, ISBN 0-03-083993-9
Course coordinator and teacher:
Andreas Rydh, tel: 08 5537 8692, e-mail: Andreas.Rydh@fysik.su.se
Laboratory supervisor:
Alban Seguinard, e-mail: alban.seguinard@fysik.su.se
Academic advisor at the Department of Physics: studievagledare@fysik.su.se
Student office: studentexp@fysik.su.se
