Accession Number : ADA324636
Title : Ninth International Conference on Superlattices, Microstructures and Microdevices, Liege, Belgium, July 14-19, 1996.
Corporate Author : ILLINOIS UNIV CHAMPAIGN
PDF Url : ADA324636
Report Date : 19 JUL 1996
Pagination or Media Count : 476
Abstract : Superconductor - semiconductor contacts; Induced superconductivity in InAs quantum wells with superconducting contacts; Low-dimensional electron transport properties in InAs/AlGaSb mesoscopic structure; Intersubband processes in quantum wells and superlattices; Interminiband electroluminescence and laser action in semiconductor superlattices; Optically pumped mid-infrared intersubband emission and lasing in coupled quantum; lntersubband scattering rates in GaAs quantum wells, measured by femtosecond luminescence; Mid-infrared femtosecond spectroscopy of intersubband hot carrier relaxation in quantum wells; Energy relaxation of hot electrons in GaAs/AlGaAs superlattices measured by infrared differential spectroscopy; Quasistatic and dynamic interaction of high-frequency fields and miniband electrons semiconductor superlattice and intraminiband relaxation; Electronic and optical properties of quantum wells and superlattices; Electron-hole hybridizing in InAs single quantum wells clad with GaSb; Coupled utltrathin InAs layers in GaAs as a tool for the determination of band offsets; Quasibound states induced by AlAs monolayers in (In, Ga)As/GaAs quantum wells.
Descriptors : *MICROSTRUCTURE, *SUPERLATTICES, COUPLING(INTERACTION), OPTICAL PROPERTIES, SCATTERING, HIGH FREQUENCY, INFRARED SPECTROSCOPY, SYMPOSIA, ELECTROMAGNETIC PROPERTIES, QUANTUM THEORY, CRYSTAL LATTICES, QUANTUM WELLS, ELECTROLUMINESCENCE, GALLIUM ARSENIDES, SUPERCONDUCTORS, ENERGY, CHARGE CARRIERS, SEMICONDUCTORS, LASERS, HIGH ENERGY, ELECTRONS, RELAXATION, CLADDING, INTERMEDIATE INFRARED RADIATION, SUPERCONDUCTIVITY, OPTICAL PUMPING, BELGIUM.
Subject Categories : Lasers and Masers
Atomic and Molecular Physics and Spectroscopy
Electrical and Electronic Equipment
Quantum Theory and Relativity
Distribution Statement : APPROVED FOR PUBLIC RELEASE