Modeling of Photonic Devices.
Material type:
TextPublisher: Hauppauge : Nova Science Publishers, Incorporated, 2009Copyright date: ©2009Edition: 1st edDescription: 1 online resource (426 pages)Content type: - text
- computer
- online resource
- 9781607419112
- 621.36
- TA1520 -- .M63 2009eb
Intro -- MODELING OF PHOTONIC DEVICES -- MODELING OF PHOTONIC DEVICES -- CONTENTS -- PREFACE -- Chapter 1 PHOTONIC SIGNAL PROCESSORS AND SENSORS -- ABSTRACT -- 1. INTRODUCTION -- 2. OPTICAL SIGNAL PROCESSING FOR MICROWAVE PHOTONICS -- 2.1. Integrated Optical Circuits for RF Signal Filtering -- 2.2. Integrated Optical Analog-to-Digital Converters -- 2.3. Integrated Optical Beam Forming Networks -- 3. OPTICAL SIGNAL PROCESSING FOR OPTICAL COMMUNICATIONS -- 3.1. Silicon Optical Devices for Modulation, Filtering and Switching -- 3.2. Switching and Routing of All-Optical WDM Signals -- 4. OPTICAL SIGNAL PROCESSING FOR SPACE APPLICATIONS -- 4.1. Earth Observation -- 4.2. Remote Sensing -- 5. GUIDED-WAVE OPTICAL SENSORS -- 5.1. E-Field Photonic Sensors -- 5.2. Dual-Cavity E-Field Sensor -- 6. PHOTONIC SENSORS FOR BIOCHEMICAL APPLICATIONS -- 6.1. Optical Transduction Mechanisms -- 6.2. Integrated Optical Biosensors -- 6.3. Coupled SOI Slot Waveguides -- 7. PHOTONIC SENSORS FOR GYRO APPLICATIONS -- 7.1. Integrated Optical Active Micro-Sensor -- 7.2. Photonic Nonlinear Gyro Sensor -- 8. SENSITIVITY ANALYSIS OF RIB WAVEGUIDES -- CONCLUSION -- REFERENCES -- Chapter 2 SLOT AND HOLLOW WAVEGUIDES -- ABSTRACT -- 1. INTRODUCTION -- 2. SLOT WAVEGUIDES: PRINCIPLE OF OPERATION -- 2.1. SOI Slot Waveguides: Fabrication and Applications -- 2.2. Slot Waveguides: Linear Response -- 2.3. Slot Waveguides: Nonlinear Response -- 3. THE HOLLOW-CORE WAVEGUIDE -- 3.1. Vertical Sidewall Hollow Waveguides -- 3.2. Non Vertical Sidewall Influence -- CONCLUSION -- REFERENCES -- Chapter 3 DIRECTIONAL COUPLERS -- ABSTRACT -- 1. INTRODUCTION -- 2. SOI WAVEGUIDE MODAL ANALYSIS -- 3. STRAIGHT DIRECTIONAL COUPLERS -- 3.1. Effect of Tilted Sidewalls -- 4. COUPLING OF STRAIGHT WAVEGUIDE WITH RING/RACETRACK RESONATOR -- 5. COUPLED MULTI-STAGE RACETRACK RESONATORS -- CONCLUSION.
REFERENCES -- Chapter 4 RING RESONATORS -- ABSTRACT -- 1. INTRODUCTION -- 2. THEORY -- 2.1. Passive Ring Resonator -- 2.2. Active Ring Resonator -- 3. NUMERICAL RESULTS -- 3.1. Passive Ring Resonator -- 3.2. Active Ring Resonator -- CONCLUSION -- REFERENCES -- Chapter 5 SILICON MODULATORS -- ABSTRACT -- 1. INTRODUCTION -- 2. MOS SILICON MODULATORS -- 2.1. Electrical Investigation -- 2.2. Optical Investigation -- 3. DUAL-CHANNEL PHOTONIC MODULATOR -- 3.1. Device Structure -- 3.2. Dual-Channel Device Modeling -- 4. RAMAN SILICON MODULATOR -- 4.1. Modelling and Simulations -- CONCLUSION -- REFERENCES -- Chapter 6 DIFFRACTION GRATINGS -- ABSTRACT -- 1. INTRODUCTION -- 2. GRATING STRUCTURES -- 3. GRATING TECHNOLOGIES AND APPLICATIONS -- 3.1. DBR and DFB Semiconductor Lasers -- 3.2. Fiber Bragg Gratings -- 4. MODELLING TECHNIQUES FOR GRATINGS -- 4.1. Coupled Mode Theory -- 4.2 FDTD METHOD -- 4.3. Finite Element Method -- 4.4 Transfer Matrix Method -- 4.5. Floquet-Bloch Theory -- CONCLUSION -- REFERENCES -- Chapter 7 NONLINEAR AND DISPERSIVE EFFECTS IN SOI OPTICAL WAVEGUIDES -- ABSTRACT -- 1. INTRODUCTION -- 2. MODELING -- 3. NUMERICAL RESULTS -- 3.1 Single Pulse Propagation -- 3.2. Two Pulse Propagation -- CONCLUSION -- REFERENCES -- Chapter 8 RAMAN EFFECT IN SOI OPTICAL STRUCTURES -- ABSTRACT -- 1. INTRODUCTION -- 2. MODELING -- 3. NUMERICAL RESULTS -- 3.1.Picosecond Regime -- 3.2. Sub-Picosecond Regime -- CONCLUSION -- REFERENCES -- Chapter 9 THERMO-OPTIC EFFECT IN SILICON STRUCTURES -- ABSTRACT -- 1. INTRODUCTION -- 2. THERMO-OPTICAL ANALYSIS IN SOI WAVEGUIDES -- 2.1. Thermal Model -- 2.2. Optical Model -- 3. ANALYSIS OF SOI RIB WAVEGUIDE ARRAYS -- 4. ANALYSIS OF SOI SLOT WAVEGUIDES -- CONCLUSION -- REFERENCES -- Chapter 10 GAIN IN OPTICALLY OR ELECTRICALLY PUMPED ERBIUM-DOPED SILICON NANOCLUSTERS -- ABSTRACT -- 1. INTRODUCTION.
2. MODELING OF OPTICAL PUMPING -- 2.1. Simulations of Optical Pumping -- 2.2. Simplified Model of Optical Pumping -- 2.3. Comparison between Simplified and Complete Models -- 3. MODELING OF ELECTRICAL PUMPING -- 3.1. Simulations of Electrical Pumping -- 3.2. Simplified Model of Electrical Pumping -- 3.3. Comparison between Simplified and Exact Models -- 4. ELECTRICALLY PUMPED ER-DOPED SILICON NANOCLUSTERS LASER -- CONCLUSION -- REFERENCES -- Chapter 11 1D PHOTONIC BANDGAP AS DELAY LINE -- ABSTRACT -- 1. INTRODUCTION -- 2. ANALYSIS OF 1D MQW PHOTONIC BANDGAP -- 3. NUMERICAL RESULTS -- 3.1. Comparison with Other Methods -- 3.2. MQW Photonic Bandgap Structures -- 3.3. MQW Leakage Factor and Influence of Duty Cycle -- 3.4. Influence of Lower Waveguide Thickness and Index -- 3.5. MQW Photonic Bandgap as Group Delay Line -- 3.6. Influence of Grating Length -- CONCLUSION -- REFERENCES -- Chapter 12 GRATING DEVICES FOR OPTICAL SENSING -- ABSTRACT -- 1. INTRODUCTION -- 2. BRAGG GRATING-BASED SENSORS -- 3. THEORY -- 4. NUMERICAL RESULTS -- CONCLUSION -- REFERENCES -- Chapter 13 MULTI-QUANTUM-WELL SOLAR CELLS -- ABSTRACT -- 1. INTRODUCTION -- 2. THEORY -- 3. NUMERICAL RESULTS -- 3.1. Comparison between MQW P-I-N and P-N Solar Cells -- 3.2. Effect of Anode Width -- 3.3. Effect of Quantum Well Width -- CONCLUSION -- REFERENCES -- INDEX -- Blank Page.
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