The book covers a wide range of topics pertaining to resonance in optical cavities. The topics include theory, design, simulation, fabrication, and characterization of micrometer and nanometer scale structures and devices that support cavity resonance via various mechanisms such as Fabry-Pérot , whispering gallery, photonic bandgap, and plasmonic modes. The chapters discuss optical cavities that resonate from UV to IR wavelengths and are based on prominent III-V material systems including Al, In, and Ga nitrides, ZnO, and GaAs.
The book covers a wide range of topics pertaining to resonance in optical cavities. The topics include theory, design, simulation, fabrication, and characterization of micrometer and nanometer scale structures and devices that support cavity resonance via various mechanisms such as Fabry-Pérot , whispering gallery, photonic bandgap, and plasmonic modes. The chapters discuss optical cavities that resonate from UV to IR wavelengths and are based on prominent III-V material systems including Al, In, and Ga nitrides, ZnO, and GaAs.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Anthony H. W. Choi is associate professor with the Department of Electrical and Electronic Engineering, University of Hong Kong. He received his PhD from the National University of Singapore and did his postdoctoral training at the University of Strathclyde, Glasgow, where he pioneered development work on GaN-based emissive micro-light-emitting diode arrays. Currently, Dr. Choi leads a team of researchers investigating frontier research topics, including solid-state lighting, micro-cavities, nanophotonics, and laser processing of devices at the Semiconductor Lighting and Display Laboratory of the University of Hong Kong.
Inhaltsangabe
Preface 1. Photonic Crystal Microcavities and Microlasers 2. Simulation of Planar Photonic Resonators 3. Ultraviolet GaN-Based Lasers with Micro-/Nanostructures 4. (Al Ga)N Microdisk Cavities 5. MOCVD Growth of Nitride DBRs for Optoelectronics 6. III-Nitride Photonic Crystal LEDs for Lighting Applications 7. Nanostructures in the III-Nitride/Silicon Material System 8. Coupling of a Light Emitter with Surface Plasmon Induced on a Metal Nanostructure for Emission Enhancement 9. Nanosphere-Patterned Gallium Nitride Optical Microcavities 10. Epitaxial Lift-Off of GaN Films 11. Gallium Arsenide Disk Optomechanical Resonators 12. Whispering Gallery Mode in ZnO with Hexagonal Cross Section 13. Nanoscale Semiconductor Ring Lasers
Preface 1. Photonic Crystal Microcavities and Microlasers 2. Simulation of Planar Photonic Resonators 3. Ultraviolet GaN-Based Lasers with Micro-/Nanostructures 4. (Al Ga)N Microdisk Cavities 5. MOCVD Growth of Nitride DBRs for Optoelectronics 6. III-Nitride Photonic Crystal LEDs for Lighting Applications 7. Nanostructures in the III-Nitride/Silicon Material System 8. Coupling of a Light Emitter with Surface Plasmon Induced on a Metal Nanostructure for Emission Enhancement 9. Nanosphere-Patterned Gallium Nitride Optical Microcavities 10. Epitaxial Lift-Off of GaN Films 11. Gallium Arsenide Disk Optomechanical Resonators 12. Whispering Gallery Mode in ZnO with Hexagonal Cross Section 13. Nanoscale Semiconductor Ring Lasers
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