Visible laser to study semiconductor properties

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Laser light in the visible range is processed for use in the testing of quantum properties in materials in Carlos Silva's lab at Georgia Tech. Credit: Georgia Tech / Rob Felt

Additional Information

Groups

News Room, Research Horizons

Categories

Research, Chemistry and Chemical Engineering, Energy, Engineering, Physics and Physical Sciences

Keywords

semiconductor, LED light, Led Lighting, LED Lights, photovoltaic, photovoltaic materials, photovoltaic panels, photovoltaic power, Photovoltaic Technology, photovoltaics, hybrid semiconductor, quantum particle, Quantum Mechanics, Quantum properties, halide perovskite, halide organic-inorganic perovskite, HOIP, HOIP, metal-halide, lead iodide, PbI4, semiconductor, optoelectronics, semiconductor for optoelectronics, perovskite, hybrid organic-inorganic perovskite, exciton, biexciton, laser, solar, photoelectric, photovoltaic, silicon, Graphene Electronics an, Optoelectronic, optoelectronic device, Electron Affinity, exciton, excitonics, polaron, Quantum wells, electron hole, quasiparticles, binding energy, non-covalent

Status

Created By: Ben Brumfield
Workflow Status: Published
Created On: Jan 14, 2019 - 5:26pm
Last Updated: Jan 14, 2019 - 5:26pm