Optical amplifiers / Galina Nemova, editor.
Material type:
TextSeries: Physics research and technologyPublisher: New York : Nova Science Publishers, c2012Description: 1 online resourceContent type: - text
- computer
- online resource
- 1612098355
- 9781612098357
- 162257074X
- 9781622570744
- 621.36/94 22
- TK8360.L48
Includes bibliographical references and index.
Description based on print version record.
English.
OPTICAL AMPLIFIERS; PHYSICS RESEARCH AND TECHNOLOGY; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Semiconductor Optical Amplifier and Programmable Logic Unit; Abstract; 1. Introduction; 2. Semiconducter Optical Amplifier; 2.1. Design; 2.2. Operating as an Amplifier; 2.3. Optical Switching with SOA; 3. SOA Based Interferometric Switch; 3.1. Different Switches; 3.1.1. Terahertz Optical Asymmetric Demultiplexer (TOAD); 2.1.2. Semiconductor Optical Amplifier on the Mach-Zehnder Interferometer; 3.1.3. Ultra-fast Nonlinear Interferometer (UNI); 3.2. Basic Properties.
4. Programmable Logic UnitConclusion; Acknowledgments; References; Semiconductor Optical Amplifiers for the Next Generation Broadband Access Networks; Abstract; 1. Introduction; 2. Basic Principle of SOA; 3. Characteristics of OSA; 4. SOA Integrated Devices for Access Networks; 5. RSOA as Colorless Modulator inside ONU; Conclusion; References; NONLINEAR DYNAMICSOF SEMICONDUCTOROPTICAL AMPLIFIERS; Abstract; 1. Introduction; 2. TheBulkSemiconductorOpticalAmplifier; 3. DynamicResponseofSOAs; 3.1. Timedomain; 3.2. Frequencydomain; 4. PracticalConsiderations; 5. MitigationofDataPatternEffects.
5.1. Filtering5.2. Novelarchitectures; 6. Conclusion; References; Zirconia-Based Erbium-Doped Fiber Amplifier; Abstract; 1. Introduction; 2. Fabrication of Crystalline Zirconia Yttria Alumino Silicate Erbium-Doped Fiber; 3. Optical Characteristics of the Preform and EDF; 4. Amplification Chacteristics of the Zr-Based EDFA; 5. Performance Comparison with a Bismuth-based EDFA; 6. Flat-Gain and Wide-Band Zr-EDFA; Conclusion; References; Optical Fiber Amplifiers; Abstract; 1. Introduction; 2. Rare Earth Doped Fiber Amplifiers; 2.1. S-Band REDFAs; 2.3. L-Band REDFAs.
2.4. Inhomogeneous Modeling of EDFAs2.5. Er3+-ions Interaction Effects; 3. Fiber Raman Amplifiers; 3.1. Theory of Raman Amplification; 3.2. Polarization Effects in FRAs; 3.3. Pumping Schemes in Fiber Raman Amplifiers; 3.3.1. WDM Pumping Scheme; 3.3.2. Continuous Spectrum Pumping Scheme; 3.3.3. TDM Pumping Scheme; 4. Quantum Dot Doped Fiber Amplifiers; Conclusion; References; Optimization of Hybrid Erbium-Doped Fiber Amplifier/Fiber Raman Amplifier; Abstract; 1. Introduction; 1.1. Erbium Doped Fiber Amplifiers; 1.2. Distributed Fiber Raman Amplifiers; 1.3. Hybrid EDFA/FRA.
2. Implememtation of PSO and GA3. EDFA Equations and Simulations; 4. Raman Equations and Simulations; 5. Hybrid EDFA/FRA Simulations; 6. Results of EDFA Optimization; 7. Results of FRA Optimization; 8. Results of Hybrid EDFA/FRA Optimization; 8.1. Optimization Ignoring FRA Pump Wavelengths; 8.2. Optimization Including FRA Pump Wavelengths; Conclusion; References; Application of Optical Amplifiers in Laser Gain Measurements: Experimental and Theoretical Investigations; Abstract; 1. Introduction; 2. Theoretical Background on Optical Amplifier; 2.1. Solution to the Rate Equations.
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