mots-cles - Optoélectronique, Hétéroépitaxie et Matériaux Accéder directement au contenu

 

Mots-clés

Halide perovskite Thermodynamics Crystallography Fils quantiques Spin-orbit coupling Halide LIGO KPFM Physics Nonlinear optics Dilute nitride Perovskites Photoluminescence Photoelectrochemistry DFT Optoelectronics Computer science Semiconductor Quantum dash lasers Electrochemiluminescence Nanostructures Compound semiconductors Epitaxy Laser Condensed matter physics VECSEL Semiconductors VCSEL Exciton Semiconductor lasers Semiconductor laser Hybrid perovskite Integrated photonics Quantum confinement Vertical-cavity surface-emitting laser Dielectric confinement Halide perovskites Cellules solaires Hybrid materials Gallium phosphide X-ray diffraction Optical pumping Heterojunction Heterostructures Beam steering Synchrotron 2D perovskites Perovskite Anharmonicity Antiphase domains Electronic structure Hybrid perovskites Solar cell InP Optical properties Carbon nanotubes Photonics on silicon Mechanical stress Magnetic field Silicon GaP/Si Quantum wells Long wavelength VCSEL Rashba Chemistry Photovoltaics MBE Band structure Silicon photonics Bragg mirror Perovskite solar cells Engineering Integrated optics Low temperature Molecular beam epitaxy Tandem solar cells Crystallinity Vertical cavity surface emitting lasers Liquid crystals Quantum dots Crystal structure Optical communications Photonics Liquid crystal devices Density functional theory Boîtes quantiques Bragg Mirrors Inorganic chemistry Quantum wires Ellipsometry Luminescence Photovoltaic Materials science GaP GaSb Multijunction solar cells III-V semiconductors InP substrate Solar cells GaAs