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CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2018/2019

Solid State Physics

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Code Completion Credits Range Language
A0M02FPL Z,ZK 5 2+2s Czech
Lecturer:
Vítězslav Kříha (guarantor), Jan Píchal, Martin Žáček
Tutor:
Vítězslav Kříha (guarantor), Jan Píchal, Martin Žáček
Supervisor:
Department of Physics
Synopsis:

Elementary physics of solids for students of electrotechnology. Dwescription and classification of solids. Thermal properties of solids. Types of bonds in solids. Real crystals, their defects and surfaces. Electrons in solids, the band structure, electrons and holes. Metals, semiconductors, insulators. Transport phenomena, generation and recombination of minority carriers. Magnetism, magnetic properties of solids. Optical phenomena in solids, luminiscence, stimulated emission.

Requirements:

Seminars attendance and semestral thesis submission.

Syllabus of lectures:

1. Condensed matter, solids, their description; crystals.

2. Classification of crystals, reciprocal lattice.

3. Experimental methods in solid state physics.

4. Dynamics of a crystal lattice; thermal properties of solids.

5. Imperfections in solids; point defects, dislocations; surfaces, nanocrystals.

6. Interatomic forces in solids; van der Waals crystals.

7. Ionic and covalent bonds.

8. Dielectrics and their electric properties, ferroelectrics.

9. Metals, the Fermi gas of free electrons, the Fermi surfaces.

10. Superconductivity, high-temperature superconductivity.

11. Semiconductors, their band structure.

12. Transport phenomena in semiconductors, generation and recombination of minority carriers.

13. Magnetic properties of solids, order and disorder of spins in a solid.

14. Optical properties of solids, luminescence.

Syllabus of tutorials:

1. Introduction, introduction to crystalography.

2. Lattices, reciprocal lattices.

3. Phase diagram and its use.

4. Dynamic properties of lattices.

5. Quantum states in solids, phonons (an outline).

6. Diffusion in ionic crystals, ionic conductivity.

7. Temperature response of conductivity in solids.

8. Electric permitivity as a function of temperature and frequency.

9. Electric conductivity of metals as a function of temperature and frequency.

10. Superconductivity.

11. Band scheme of a semiconductor.

12. Generation of minority carriers.

13. Ferromagnetics, ferrites.

14. Concluding discussion concerning physics of matter.

Study Objective:
Study materials:

1. Ch. Kittel: Introduction to Solid State Physics

Note:
Time-table for winter semester 2018/2019:
Time-table is not available yet
Time-table for summer semester 2018/2019:
Time-table is not available yet
The course is a part of the following study plans:
Data valid to 2019-07-23
For updated information see http://bilakniha.cvut.cz/en/predmet12615804.html