Narrow Gap Semiconductors Physics and Applications

Inhaltsverzeichnis

• General introduction.
• Band structure of narrow gap semiconductors.
• Dielectric anomalies in zero-gap semiconductors.
• Electron scattering and classical transport phenomena in small-gap semiconductors.
• Phonons in narrow gap semiconductors.
• Intraband magneto-optics in InSb-type semiconductors.
• Interband magnetooptics in narrow gap semiconductors.
• Spin-flip Raman scattering and associated X(3) nonlinearities.
• Impurity states in high magnetic fields.
• Landau emission in semiconductors.
• The Shubnikov-De Haas effect and the magnetic freeze out.
• Electronic properties of cadmium arsenide.
• Quantum transport in narrow-gap semiconductors.
• Some aspects of the high field magnetoresistance in semiconductors.
• Narrow-gap semimagnetic semiconductors.
• Magnetic properties of narrow gap semiconductors.
• Electronic Raman scattering in narrow gap semiconductors.
• InAs-GaSb superlattices — synthesized narrow-gap semiconductors and semimetals.
• On impurity states in gapless semiconductors.
• Resonant states in semiconductors some applications of the Slater-Koster model.
• Stress deformation effects on narrow gap semiconductors.
• Hot electrons in narrow gap semiconductors.
• Photogalvanic effects in noncentrosymmetric semiconductors.
• Defects in IV–VI compounds.
• Magnetooptical properties of IV–VI compounds.
• Magnetoplasma waves in semiconductors.
• Phase transition in IV-VI compounds.
• Electric subbands in narrow gap semiconductors.
• Surface-charge layers on the narrow gap semiconductors.
• Crystal growth of narrow gap semiconductors theory and techniques.
• Narrow-gap semiconductor detectors and lasers.