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ZnO is a promising material for short wave-length opto-electronic devices such as UV lasers and LEDs due to its large exciton binding energy and low material cost. ZnO can be doped easily n-type, but the realization of stable p-type ZnO is rather difficult. Using first-principles band structure methods the authors address what causes the p-type doping difficulty in ZnO and how to overcome the p-type doping difficulty in ZnO.
Semiconductor doping. --- Doped semiconductors. --- Crystals --- Defects.
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Semiconductor doping. --- Doped semiconductors. --- Crystals --- Defects.
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ZnO is a promising material for short wave-length opto-electronic devices such as UV lasers and LEDs due to its large exciton binding energy and low material cost. ZnO can be doped easily n-type, but the realization of stable p-type ZnO is rather difficult. Using first-principles band structure methods the authors address what causes the p-type doping difficulty in ZnO and how to overcome the p-type doping difficulty in ZnO.
Semiconductor doping. --- Doped semiconductors. --- Crystals --- Defects.
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Semiconductor doping. --- Doped semiconductors. --- Crystals --- Defects.
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This book provides a snapshot of recent progress in the field of rare-earth-doped group III-nitride semiconductors, especially GaN, but extending to AlN and the alloys AlGaN, AlInN and InGaN. This material class is currently enjoying an upsurge in interest due to its ideal suitability for both optoelectronic and spintronic applications. The text first introduces the reader to the historical background and the major theoretical challenges presented when 4f electron systems are embedded in a semiconductor matrix. It details the preparation of samples for experimental study, either by in-situ growth or ion implantation/annealing, and describes their microscopic structural characterisation. Optical spectroscopy is a dominant theme, complicated by site multiplicity, whether in homogeneous hosts or in heterostructures such as quantum dots, and enlivened by the abiding fascination of the energy transfer mechanism between the host material and the lumophore. Finally, the rapid progress towards prospective optoelectronic and spintronic devices is presented along with several examples.
Doped semiconductors. --- Rare earth nitrates. --- Doped semiconductors --- Compound semiconductors --- Gallium nitride --- Indium compounds --- Aluminum nitride --- Optoelectronics --- Spintronics --- Physics --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Light & Optics --- Electricity & Magnetism --- Applied Physics --- Materials --- Physics. --- Quantum optics. --- Optical materials. --- Electronic materials. --- Optics, Lasers, Photonics, Optical Devices. --- Optical and Electronic Materials. --- Quantum Optics. --- Nitrates --- Rare earth metal compounds --- Semiconductor doping --- Semiconductors --- Optics --- Lasers. --- Photonics. --- Photons --- Quantum theory --- Electronic materials --- New optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators
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Electronics --- 621.38 --- Semiconductor doping --- Transistor circuits --- #TELE:ELEN --- halfgeleiders --- diodes --- transistors --- versterkers --- Electronic circuits --- Transistors --- Doping of semiconductors --- Diffusion --- Doped semiconductors --- Semiconductors --- Electronic devices. Electron tubes. Photocells. Particle accelerators. X-ray tubes --- Defects --- Semiconductors. --- Transistor circuits. --- 621.38 Electronic devices. Electron tubes. Photocells. Particle accelerators. X-ray tubes --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Solid state electronics --- Materials
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Cristall chemistry --- fysicochemie --- Electron beams --- Ion bombardment --- Ion implantation --- Semiconductor doping --- Doping of semiconductors --- Diffusion --- Doped semiconductors --- Semiconductors --- Implantation, Ion --- Ion plating --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Beams, Electron --- Electron optics --- Electronics --- Particle beams --- Defects --- Crystal chemistry
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Ion implantation --- Semiconductor doping --- 538.9 --- Doping of semiconductors --- Diffusion --- Doped semiconductors --- Semiconductors --- Implantation, Ion --- Ion bombardment --- Ion plating --- Physics of condensed matter (in liquid state and solid state) --- Defects --- 538.9 Physics of condensed matter (in liquid state and solid state) --- Ion implantation. --- Semiconductor doping. --- Ions --- Semiconducteurs --- Implantation --- Dopage
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