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Last update: T_FUUK (09.05.2001)
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Last update: T_KCHFO (24.01.2007)
[1] H.Frank: Fyzika a technika polovodičů. SNTL Praha 1990 [2] Teorie pevných látek. ČSAV Praha 1965. [3] Peter Y.Yu, Manuel Cardona: Fundamentals of Semiconductors. Springer-Verlag Berlin 1996. [4] K.Seeger: Semiconductor Physics: Springer Verlag Berlin 1989 a další vydání [5] M.A.Herrman: Semiconductor Superlattices. Akademie-Verlag Berlin 1986 [6] J.Toušek: Fotoelektrické jevy v polovodičích. SPN Praha 1977. [7] J.Toušek: Polovodičové prvky III. Karolinum, Praha 1993. [8] B.E.A.Saleh a M.C.Teich: Základy fotoniky, sv. 1 - 4. Matfyzpress Praha 1995. |
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Last update: T_FUUK (29.04.2004)
Electromagnetic waves. Definitions of optical constants. Dispersion relations and general properties of optical constants.
2. Optical properties of semiconductors and ionic crystals Quantum theory of optical transitions. Interband transitions. Direct allowed and "forbidden" absorption edges. Indirect absorption edge. Excitons, exciton-polaritons. Defects. Lattice absorption and reflection. Phonon-polaritons.
3. Optical properties of metals Free electron approximation. Plasmon edge and skin-effect. Free carrier absorption. Interband transitions in metals.
4. Effect of external fields Induced anisotropy. Magneto-optical phenomena of free electrons. Cyclotron resonance. Faraday rotation and Voigt effect. Landau levels and interband magneto-absorption.
5. Nonlinear optics Phenomenological description. Second harmonic generation. Two-photon absorption. Raman scattering. Four-wave mixing. Electro-optic effects.
6. Emission of light, luminescence Thermal emission. Radiative and nonradiative recombination. Methods of luminescence excitation. Interband recombination, free and bound excitons. Stimulated emission. Semiconductor photodiodes and lasers.
7. Optoelectonics Light sources and detectors. Basic parameters and characteristics. Solar cells. Semiconductor photodiodes and lasers. Quantum wells and superlattices. Quantum size effects. Applications. |