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Last update: T_KFES (23.05.2001)
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Last update: Mgr. Kateřina Mikšová (12.05.2022)
The course ends with an oral exam |
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Last update: Mgr. Kateřina Mikšová (13.05.2019)
[1] L. D. Landau, E. M. Lifshitz, L.P. Pitaevskii (1984). Electrodynamics of Continuous Media. Vol. 8 (2nd ed.) [2] Kittel, C. (2004). Introduction to Solid State Physics, Wiley [3] Zubarev, D.N. (1974). Nonequilibrium Sta.tistical Thermodynamics [4] Greiner W. (1998) Classical Electrodynamics, Springer-Verlag New York.
Vzdelani: Education: 1979-1984: graduate of the Faculty of Mathematics and Physics, Comenius University, Bratislava, subject: Mathematical Physics; 1984: first degree (RNDr.) 1993: Defence of thesis for obtaining the degree of Candidatus Scientiarium, CSc., (corresponding to PhD degree), Institute of Physics ASCR since 1993: Department of Dielectrics, Institute of Physics, Czechoslovak Academy of Sciences, Prague |
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Last update: T_KFES (23.05.2003)
1. Polarization and Maxwell equation.
2. Static dielectric constant, thermodynamics of dielektric compounds.
3. External electric field and macroscopic field in dielectric.
4. Dispersion of dielectric constant and losses in dielectric.
5. Calculation of complex admitance (theory of linear response), Kramers-Kronigovy relations, fluctuation-dissipative theorem.
6. Types of polarization mechanisms.
7. Local field.
8. Electron polarization.
9. Pyroelectric phenomenon.
10. Polarization in ion crystals of NaCl type.
11. Infrared dispersion e(w).
12. Optical vibrations in electrostatic approximation.
13. Retardation effects.
14. Reflectivity and optical constants.
15. Stability of crystal lattice in relation to optical vibrations.
16. Phenomenological theory of ferroelectric phase transition.
17. Influence of disorder on dielectric properties of compounds. |