Applications of Group Theory in Solid State Physics
Code  Completion  Credits  Range 

D11APLG  ZK  3 
 Garant předmětu:
 Lecturer:
 Tutor:
 Supervisor:
 Department of Solid State Engineering
 Synopsis:

Consideration of atomic system symmetry allows, without any quantitative calculations, rigorously and precisely determine how many energy states there are and what interactions and transitions between them may occur. Therefore, the main purpose of this course is to describe the methods by which we can extract the information on the object that symmetry alone will provide. The application of these methods is illustrated by an example of molecular orbitals, inner orbitals of ions in the crystal field environment, normal modes of molecular vibrations, and selection rules for optical absorption transitions.
 Requirements:
 Syllabus of lectures:

1. Definitions and theorems of group theory.
2. Molecular symmetry.
3. The symmetry point groups, classes of symmetry operations.
4. Reducible and irreducible representations of groups, properties of irreducible representations, decomposition of reducible representations.
5. Character tables.
6. Wave functions as bases for irreducible representations.
7. The direct product and its use.
8. Molecular orbital theory  transformation properties of atomic orbitals, complete and incomplete projection operator.
9. Molecular orbitals for sigma and pi bonding.
10. Ligand field theory  splitting of the terms of free ions in a crystalline environment.
11. Construction of energy level diagrams for ions in a crystalline environment by using the method of descending symmetry.
12. Selection rules and polarizations of optical transitions.
 Syllabus of tutorials:
 Study Objective:

Knowledge:
Theory of group representations and its application to determination of molecular orbitals, energy levels of ions in a crystalline environment, normal modes of molecular vibrations, and probability of optical absorption transitions.
Skills:
Ability to obtain attainable information about physical properties of atomic system (molecule, crystal) arising from its symmetry alone.
 Study materials:

Key references:
[1] F. A. Cotton: Chemical applications of group theory, 1990, John Willey & Sons, New York.
Recommended references:
[2] M. S. Dresselhaus, G. Dresselhaus, A. Jorio: Group theory: application to the physics of condensed matter, 2008, SpringerVerlag, Berlin.
 Note:
 Further information:
 No timetable has been prepared for this course
 The course is a part of the following study plans: