Multiple Micro-Cavity Laser with Benzocyclobutene/Semiconductor High Reflective Mirrors Fabricated by CH_4/H_2-Reactive Ion Etching

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概要

• 論文の詳細を見る
• 社団法人応用物理学会の論文
• 1999-07-15

著者

• Raj Mothi

  Research Center For Quantum Effect Electronics Tokyo Institute Of Technology

• TOYOSHIMA Shunsuke

  Research Center for Quantum Effect Electronics, Tokyo Institute of Technology

• ARAI Shigehisa

  Research Center for Quantum Effect Electronics, Tokyo Institute of Technology

• Toyoshima Shunsuke

  Research Center For Quantum Effect Electronics Tokyo Institute Of Technology

• Arai S

  Research Center For Quantum Effect Electronics Tokyo Institute Of Technology

• Arai Shigehisa

  Faculty Of Engineering Tokyo Institute Of Technology

• Arai Shigehisa

  Research Center For Quantum Effect Electronics Tokyo Institute Of Technology

• Arai Shigehisa

  Department Of Electrical And Electronics Engineering Tokyo Institute Of Technology

• Arai I

  Research Center For Quantum Effect Electronics Tokyo Institute Of Technology

関連論文

• High-Reflectivity Semiconductor/Benzocyclobutene Bragg Reflector Mirrors for GaInAsP/InP Lasers
• Highly Uniform 1.5 μm Wavelength Deeply Etched Semiconductor/Benzocyclobutene Distributed Bragg Reflector Lasers
• Theoretical Analysis of GaInAsP/InP Multiple Micro-Cavity Laser
• Continuous Wave Operation of 1.55 μm GaInAsP/InP Laser with Semiconductor/Benzocyclobutene Distributed Bragg Reflector
• Multiple Micro-Cavity Laser with Benzocyclobutene/Semiconductor High Reflective Mirrors Fabricated by CH_4/H_2-Reactive Ion Etching
• GaInAsP/InP Multiple Short Cavity Laser with λ/4-Air Gap/Semiconductor Bragg Reflectors
• GaInAsP/InP Partially Strain-Compensated Multiple-Quantum-Wire Lasers Fabricated by Dry Etching and Regrowth Processes
• GaInAsP/InP Long Wavelength Quantum-Wire Lasers
• [Invited]GaInAsP/InP Long Wavelength Quantum-Wire Lasers
• Room Temperature-Copntinuous Wave Operation of GaInAsP/InP Multiple-Quantum-Wire Lasers by Dry Etching and Regrowth Method
• Reliable Operation of GaInAsP/InP Distributed Feedback Laser with Wirelike Active Regions
• Distributed Reflector Lasers with First-Order Vertical Grating and Second-Order Bragg Reflectors
• GaInAsP/InP Distributed Reflector Lasers Consisting of Deeply Etched Vertical Gratings : Optics and Quantum Electronics
• 1.5-μm-Wavelength Distributed Feedback Lasers With Deeply Etched First-Order Vertical Grating : Optics and Quantum Electronics
• Deeply Etched Semiconductor/Benzocyclobutene Distributed Bragg Reflector Laser Combined with Multiple Cavities for 1.5-μm-Wavelength Single-Mode Operation
• Low-Damage GaInAs(P)/InP Nanometer Structure by Low-Pressure ECR-RIBE
• Electric Field Induced Reflection in GaInAsP/InP MQW Structure
• Electric Field-Induced Absorption in GaInAsP/InP MQW Structures Grown by LPE
• Taper-Shape Dependence of Tapered-Waveguide Traveling Wave Semiconductor Laser Amplifier (TTW-SLA)
• Analysis of Leading Edge/Trailing Edge Independent Detection Method in Optical Disk : High Density Recording
• Analysis of Leading Edge/Trailing Edge Independent Detection Method in Optical Disk
• Distributed Reflector Laser Integrated with Active and Passive Grating Sections Using Lateral Quantum Confinement Effect
• Multiple-Quantum-Wire Structures with Good Size Uniformity Fabricated by CH_4/H_2 Dry Etching and Organometallic Vapor-Phase-Epitaxial Regrowth
• GaInAsP/InP Strain-Compensated Quantum-Wire Lasers Fabricated by CH_4/H_2 Dry Etching and Organometallic Vapor-Phase-Epitaxial RegroWth : Optics and Quantum Electronics
• Distributed Reflector Laser with Wirelike Active Regions for Asymmetric Output Property (Short Note)
• Low Threshold Current Density Operation of GaInAsP/InP Lasers with Strain-Compensated Multiple-Layered Wirelike Active Regions
• GaInAsP/InP Multiple-Layered Quantum-Wire Lasers Fabricated by CH_4/H_2 Reactive-Ion Etching
• Characterization of Etching Damage in Cl_2/H_2-Reactive-Ion-Etching of GaInAs/InP Heterostructure
• Low Threshold GaInAsP/InP Distributed Feedback Lasers with Periodic Wire Active Regions Fabricated by CH_4/H_2 Reactive Ion Etching
• Evaluation of Optical Gain Properties of GaInAsP/InP Compressively Strained Quantum-Wire Lasers
• GaInAsP/InP Multiple-Layered Quantum-Wire Lasers Fabricated by CH_4/H_2-Reactive-Ion-Etching
• Temperature Dependence of Internal Quantum Efficiency of 20-nm-Wide GaInAsP/InP Compressively-Strained Quantum-Wire Lasers
• Sidewall Recombination Velocity in GaInAsP/InP Quantum-Well Lasers with Wire-like Active Region Fabricated by Wet-Chemical Etching and Organo-Metallic Vapor-Phase-Epitaxial Regrowth
• Gain Spectrum Measurement of GaInAsP/InP Compressively-Strained Quantum-Wire Lasers
• Fabrication of GaInAs/InP Quantum Wires by Organometallic-Vapor-Phase-Epitaxial (OMVPE) Selective Growth on Grooved Side Walls of Ultrafine Multilayers
• A New-Type 1.5 〜 1.6 μm GaInAsP/InP BIG-DBR Laser by an Island-Type Mesa Process
• Light Emission from Quantum-Box Structure by Current Injection
• Spontaneous Recombination, Gain and Refractive Index Variation for 1.6 μm Wavelength InGaAsP/InP Lasers
• The Temperature Dependence of the Efficiency and Threshold Current of In_Ga_xAs_yP__ Lasers Related to Intervalence Band Absorption
• 1.5-1.6 μm Wavelength (100) GaInAsP/InP DH Lasers : B-3: LASER
• Room Temperature CW Operation of GaInAsP/InP DH Laser Emitting at 1.51 μm
• Low Threshold Current Density (100) GaInAsP/InP Double-Heterostructure Lasers for Wavelength 1.3 μm
• 1.67 μm Ga_In_As/InP DH Lasers Double Cladded with InP by LPE Technique
• Conditions of LPE Growth for Lattice Matched GaInAsP/InP DH Lasers with(100)Substrate in the Range of 1.2-1.5 μm
• Ga_xIn_As_yP_-InP Injection Laser Partially Loaded with Distributed Bragg Reflector
• Intraband Relaxation Time in Compressive-Strained Quantum-Well Lasers
• Fast Electron Beam Lithography System with 1024 Beams Individually Controlled by Blanking Aperture Array
• Estimation of Sidewall Nonradiative Recombination in GaInAsP/InP Wire Structures Fabricated by Low Energy Electron-Cyclotron-Resonance Reactive-Ion-Beam-Etching
• Switching Operation of GaInAs/InP Multiple-Quantum-Well Directional-Coupler-Type All-Optical Switch
• Surface Damage in GaInAs/GaInAsP/InP Wire Structures Prepared by Substrate-Potential-Controlled Reactive Ion Beam Etching
• Fabrication of GaInAs/GaInAsP/InP Multi-Quantum-Wires and -Boxes by Substrate-Potential-Controlled Electron Cyclotron Resonance Reactive Ion Beam Etching
• Size Fluctuation of 50 nm Periodic GaInAsP/InP Wire Structure by Electron Beam Lithography and Wet Chemical Etching
• Proposal of Semiconductor Directional-Coupler-Type All-Optical Switch with Tapered-Waveguide Structures
• Epitaxial Growth of Metal(CoSi_2)/Insulator(CaF_2) Nanometer-Thick Layered Structure on Si(111)
• Low Temperature (〜420℃) Epitaxial Growth of CaF_2/Si(111) by Ionized-Cluster-Beam Technique
• GaInAsP/InP Compressively Strained Quantum-Wire Lasers Fabricated by Electron Beam Lithography and 2-Step Organometallic Vapor Phase Epitaxy
• Photon Recycling Effect in Semiconductor Lasers using Low Dimensional Structures
• Anisotropic Refractive Index of Porous InP Fabricated by Anodization of (111)A Surface
• Stripe Direction Dependence of Mesa Angle Formed on (100) InP by Selective Etching using HCl Solution
• Anisotropic Polarization Properties of Photoluminescence from GaInAsP/InP Quantum-Wire Structures Fabricated by Two-Step Organometallic Vapor Phase Epitaxy Growth
• Lateral Junction Waveguide-Type Photodiode Grown on Semi-Insulating InP Substrate
• 1.6 μm Wavelength Buried Heterostructure GaInAsP/InP Lasers
• Regrowth Interface Quality Dependence on Thermal Cleaning of AlGaInAs/InP Buried-Heterostructure Lasers
• Improvement of Regrown Interface in InP Organo-Metallic Vapor Phase Epitaxy
• Fabrication of Vertical and Uniform-Size Porous InP Structure by Electrochemical Anodization
• Novel Structure GaInAsP/InP 1.5-1.6 μm Bundle Integrated-Guide (BIG) Distributed Bragg Reflector Laser
• Dynamic-Single-Mode Semiconductor Lasers : B-2: LD AND LED-1
• Single-Mode Operation of Optically Pumped Membrane Buried Heterostructure Distributed-Feedback Lasers : Optics and Quantum Electronics
• A Modified 1.5μm GaInAsP / InP Bundle-Integrated-Guide Distributed-Bragg-Reflector (BIG-DBR) Laser with an Inner Island Substrate : Waves, Optics and Quantum Electronics
• High-Reflectivity Semiconductor/Benzocyclobutene Bragg Reflector Mirrors for GaInAsP/InP Lasers
• Reliable Operation of GaInAsP/InP Distributed Feedback Laser with Wirelike Active Regions
• Low-Loss Amorphous Silicon Multilayer Waveguides Vertically Stacked on Silicon-on-Insulator Substrate
• Distributed Reflector Laser Integrated with Active and Passive Grating Sections Using Lateral Quantum Confinement Effect
• Multiple-Quantum-Wire Structures with Good Size Uniformity Fabricated by CH4/H2 Dry Etching and Organometallic Vapor-Phase-Epitaxial Regrowth
• GaInAsP/InP Partially Strain-Compensated Multiple-Quantum-Wire Lasers Fabricated by Dry Etching and Regrowth Processes
• Photon Recycling Effect in Semiconductor Lasers using Low Dimensional Structures

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