Analysis and Design of Low Loss and Low Mode-Shift Integrated Optical Waveguides Using Finite-Difference Time-Domain Method
スポンサーリンク
概要
- 論文の詳細を見る
This paper describes the analysis of integrated optical waveguides using Finite-Difference Time-Domain (FDTD) method, and proposes the design methodology for low loss waveguide components: corner bends and branches. In order to integrate optical waveguides with Si VLSI technologies on a chip, the compact bends or branches are necessary. Since the optical power radiation from a bend or a branch point depends on the waveguide shapes, an accurate analysis of guided wave behavior is required. For the purpose we adopted the FDTD method which can analyze optical waveguides with a large variation of refractive index and arbitrary shape. Proposed design concept is to have all waveguides transmit only the fundamental mode and to design whole waveguides based on the fundamental mode transfer characteristics. For this design concept, waveguide components are required to have not only low radiation loss but also a little mode shift from the fundamental mode. The bend using the double-reflection mirrors and the branch using a slit are proposed for suppressing the mode shift and improving radiation loss. By the FDTD analysis, the following results have been obtained. The radiation loss and mode shift of double reflection bend are 1% and 4%, and those of the slit branch are 2% and 5%, respectively, in 2μm width waveguide.
- 社団法人電子情報通信学会の論文
- 1997-05-25
著者
-
Iwata A
Hiroshima Univ. Higashi-hiroshima‐shi Jpn
-
IWATA Atsushi
Faculty of Engineering, Hiroshima University
-
IWATA Atsushi
A-R-Tec Corporation
-
HIROSE Masataka
Faculty of Engineering, Hiroshima University
-
DOI Takeshi
Faculty of Engineering, Hiroshima University
-
Iwata Atsushi
Faculty Of Engineering Hiroshima University
-
Iwata Atsushi
Electronic Materials And Devices Division Mitsubishi Petrochemical Co. Ltd.
-
Doi Takeshi
Faculty Of Engineering Hiroshima University
-
Doi T
Department Of Bio- And Geoscience Graduate School Of Science Osaka City University
-
Hirose Masataka
Advanced Semiconductor Research Center National Institute Of Advanced Industrial Science And Technol
-
Hirose Masataka
Faculty Of Engineering Hiroshima University
-
Doi T
Univ. Tokyo Tokyo Jpn
関連論文
- Magnetization and Anisotropy in Single Crystals of Tl-(1223) Phase of Tl-Sr-Ca-Cu-O System
- Magnetic Properties of the (1223) Phase of Tl-Sr-Ca-Cu-O Superconductors with Strong Pinning in Liquid Nitrogen
- Existence of Superconducting States Above 30 K in Sr-V-O Systems Doped with Various Elements
- Image Segmentation/Extraction Using Nonlinear Cellular Networks and Their VLSI Implementation Using Pulse-Modulation Techniques(Special Section on Analog Circuit Techniques and Relate)
- A 1-D CMOS PWM Cellular Neural Network Circuit and Resistive-Fuse Network Operation
- Image Object Extraction Using Resistive-Fuse and Oscillator Networks and a Pulse-Modulation Circuit for Their LSI Implementation
- An Image-Filtering LSI Processor Architecture for Face/Object Recognition Using a Sorted Projection-Field Model Based on a Merged/Mixed Analog-Digital Architecture(Analog Circuit and Device Technologies)
- High-Rate GaAs Epitaxial Lift-Off Technique for Optoelectronic Integrated Circuits
- High-Efficiency Micromirrors and Branched Optical Waveguides on Si Chips
- Single-Chip Integration of Light-Emitting Diode, Waveguide and Micrormirrors
- Fabrication and Evaluation of Three-Dimensional Optically Coupled Common Memory
- Evaluation of Plasma-Induced Damage by Medium-Energy Ion Scattering
- Electron Tunneling through Ultrathin Gate Oxide Formed on Hydrogen-Terminated Si(100) Surfaces
- Atomic Scale Flatness of Chemically Cleaned Silicon Surfaces Studied by Infrared Attenuated-Total-Reflection Spectroscopy
- BF^+_2 Ion Implantation into Very-Low-Temperature Si Wafer
- Chemical Stability of HF-Treated Si(111) Surfaces
- The Role of Fluorine Termination in the Chemical Stability of HF-Treated Si Surfaces
- Chemical Bonding Features of Fluorine and Boron in BF^+_2 -Ion-Implanted Si
- In-Depth Profiling of Suboxide Compositions in the SiO_2/Si Interface by Angle-Resolved X-Ray Photoelectron Spectroscopy
- Comparative Studies of Perfluorocarbon Alternative Gas Plasmas for Contact Hole Etch
- Quantitative Evaluation of Dopant Loss in 5-10 keV As Ion Implantation for Low-Resistive, Ultrashallow Source/Drain Formation
- An Experimental Pattern Recognition System Using Bidirectional Optical Bus Lines
- Experimental Pattern Recognition System Using Bidirectional Optical Bus Lines
- Optically Interconnected Kohonen Net for Pattern Recognition
- High-Efficiency Micromirrors and Branched Optical Waveguides on Si Chips
- Pulse Modulation Techniques for Nonlinear Dynamical Systems and a CMOS Chaos Circuit with Arbitrary 1-D Maps(New System Paradigms for Integrated Electronics)
- An Hadamard Transform Chip Using the PWM Circuit Technique and Its Application to Image Processing(Special Issue on High-Performance Analog Integrated Circuits)
- A CMOS Stochastic Associative Processor Using PWM Chaotic Signals(Special Issue on Integrated Systems with New Concepts)
- Bio-Inspired VLSIs Based on Analog/Digital Merged Technologies
- Merged Analog-Digital Circuits Using Pulse Modulation for Intellingent SoC Applications (Special Section on Analog Circuit Techniques Supporting the System LSI Era)
- A High-Resolution Hadamard Transform Circuit Using Pulse Width Modulation Technique
- A Multi-Quantum-Dot Associative Circuit Using Thermal-Noise Assisted Tunneling
- A Nonlinear Oscillator Network for Gray-Level Image Segmentation and PWM / PPM Circuits for Its VLSI Implementation(Special Section on Intelligent Signal and Image Processing)
- New Non-Volatile Analog Memory Circuits Using PWM Methods (Special Issue on Integrated Electronics and New System Paradigms)
- A Stochastic Association Circuit Using PWM Chaotic Signals
- A Pattern Matching Processor Using Analog-Digital Merged Architecture Based on Pulse Width Modulation
- An Analog-Digital Merged Neural Circuit Using Pulse Width Modulation Technique (Special Section on Analog Circuit Techniques and Related Topics)
- A Stochastic Associative Memory Using Single-Electron Devices and Its Application in Digit Pattern Association
- A Stochastic Associative Memory Using Single-Electron Tunneling Devices (Special Issue on Technology Challenges for Single Electron Devices)
- Synergistic Combination of Direct Plasma Membrane Damage and Oxidative Stress as a Cause of Antifungal Activity of Polyol Macrolide Antibiotic Niphimycin
- Analysis and Design of Low Loss and Low Mode-Shift Integrated Optical Waveguides Using Finite-Difference Time-Domain Method
- Resistivity Correction Factor for the Four-Ring Probe Method
- Resistivity Correction Factor for the Four-Probe Method: Experiment III
- Atomic Layer Controlled Digital Etching of Silicon : Etching and Deposition Technology
- Low-Voltage, Low-Phase-Noise Ring-VCO using 1/f-Noise Reduction Techniques
- A 0.6V Supply CMOS Amplifier Using Noise Reduction Technique of Autozeroing and Chopper Stabilization
- A 1V Low-Noise CMOS Amplifier Using Autozeroing and Chopper Stabilization Technique(Analog Circuit and Device Technologies)
- Design of a Wireless Neural-Sensing LSI(Analog Circuit and Device Technologies)
- A Design of Neural Signal Sensing LSI with Multi-Input-Channels(Analog Circuit Techniques and Related Topics)
- Control of Fine Particulate and Gaseous Contaminants by UV/Photoelectron Method (Special Issue on Scientific ULSI Manufacturing Technology)
- A Neural Recording Amplifier with Low-Frequency Noise Suppression
- A 2.0Vpp Input, 0.5V Supply Delta Amplifier with A-to-D Conversion
- A Low Noise Amplifier Using Chopper Stabilization for a Neural Sensor LSI
- Relationship between response of sweat rate and skin blood flow in the eariy stage of sweating during exercise
- Study on regional skin blood flow during exercise
- Chip-Level Substrate Coupling Analysis with Reference Structures for Verification(Physical Design,VLSI Design and CAD Algorithms)
- Evaluation of Isolation Structures against High-Frequency Substrate Coupling in Analog/Mixed-Signal Integrated Circuits(Analog Circuit Techniques and Related Topics)
- Low-Voltage and Low-Noise CMOS Analog Circuits Using Scaled Devices(Analog Circuits and Related SoC Integration Technologies)
- Substrate Noise Simulation Techniques for Analog-Digital Mixed LSI Design (Special Section on Analog Circuit Techniques and Related Topics)
- A Concept of Analog-Digital Merged Circuit Architecture for Future VLSI's (Special Section on Analog Technologies in Submicron Era)