Amiri / Afroozeh / Ahmad | Integrated Micro-Ring Photonics | E-Book | sack.de
E-Book

E-Book, Englisch, 182 Seiten

Amiri / Afroozeh / Ahmad Integrated Micro-Ring Photonics

Principles and Applications as Slow Light Devices, Soliton Generation and Optical Transmission
Erscheinungsjahr 2016
ISBN: 978-1-317-40484-2
Verlag: CRC Press
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

Principles and Applications as Slow Light Devices, Soliton Generation and Optical Transmission

E-Book, Englisch, 182 Seiten

ISBN: 978-1-317-40484-2
Verlag: CRC Press
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

This book presents theoretically and experimentally gained data on novel techniques in optical communication applications, signals transmission and multi-ring resonator passive systems used for secured and high capacity optical communication.

The book introduces basic methods and solutions to generate optical communication signals in the soliton form. It presents a novel technique to generate optical solitons in nonlinear photonics semiconductor waveguides. These signals in the form of soliton are more effective for data transfer in a network system. The usage of micro-ring resonators as passive devices is discussed, introducing new integrated photonics devices, with a useful application in research fields of integrated photonics or undergraduate and master studies in photonics and engineering communication. Additionally, new techniques of data transmission are shown using stable optical signals as soliton pulses.

This book focussed on readers and researchers in the field of nonlinear physics, Photonics, optics, engineering communication, signal processing and optical soliton communication. The waveguide fabrication and data analysis can be a main reference for those working on designing or characterization of the integrated photonics systems.

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Autoren/Hrsg.

Amiri, Iraj Sadegh
Afroozeh, Abdolkarim
Ahmad, Harith

Fachgebiete

Weitere Infos & Material

Chapter 1: Soliton Signals Propagating in Fib Waveguides and Slow Light Generation
1.1 Fiber Waveguides
1.2 Optical Soliton
1.3 Ring Resonators
1.4 Applications of Ring Resonator Systems
1.5 Introduction of Slow Light
1.6 Slow Light
1.7 Background of Slow Light Generation
1.8 Problem Statement
1.9 Research Achievements
1.10 Scope of Research
1.11 Significance of Study
1.12 History of Slow Light Generation
1.13 History of Slow Light

Chapter 2: Micro-ring Resonators (MRRs) Systems and Soliton Propagating in Optical Fiber Communication
2.1 Soliton Properties
2.2 Evaluation of Soliton Signals
2.3 MRR used to Generate Chaotic Signals
2.4 Resonance Bandwidth of Soliton
2.5 Finesse of Soliton
2.6 Free Spectral Range (FSR) of Soliton
2.7 Quality Factor of Soliton
2.8 Chaotic Soliton Signal Generator
2.9 Add/Drop Filter System
2.10 Half PANDA Ring Resonator Function
2.11 PANDA Ring Resonators
2.12 Fiber Nonlinearities
2.13 Calculation of Nonlinear Refractive Index
2.14 Nonlinear Schrodinger Equation (NLS Equation)
2.15 Temporal Soliton
2.16 Gaussian Beam
2.17 Dispersion
2.18 Group Velocity Dispersion
2.19 Self Phase Modulation (SPM)
2.20 Chaotic Phenomena
2.21 Kramers-Kronig Relations
2.22 Scattering Matrix Method for Ring Resonators
2.23 Theory of Slow Light
2.24 Optical Buffer

Chapter 3: Analysis of Single MRRs, Add/Drop Filter MRRs and Cascaded MRRs
3.1 Single Micro-ring Resonator (SMRR)
3.2 Analysis of Single Micro-ring Resonator
3.3 Soliton Roundtrip and Add/Drop System
3.4 Characteristics of the Ring Resonator
3.5 Free Spectral Range (FSR)
3.6 Full Width at Half Maximum (FWHM)
3.7 Finesse
3.8 Quality Factor (Q Factor)
3.9 Group Velocity and Phase Velocity
3.10 Semiconductor Cascaded MRR Analysis and Characterization
3.10.1 Introduction of Optical Filter MRRs
3.11 Theoretical Background of Cascaded MRR System
3.12 Phase and Dispersion Responses and Group Delay Analysis of the Cascaded MRR System

Chapter 4: Physics and Fabrication of Micro-ring Resonator Structure Devices
4.1 Introduction
4.2 Physical of Micro-ring Resonators

Chapter 5: Micro-ring Modulators
5.1 Introduction
5.2 Micro-ring used as Modulator
5.3 Frequency-dependent Micro-ring Transmission

Chapter 6: Micro-ring Resonators in Optical Transmission Systems
6.1 Micro-ring Resonator Systems in Optical Communication Systems
6.2 Theoretical Background of Soliton Propagation in Nonlinear Kerr Medium
6.3 Result and Discussion

Chapter 7: Methods of Slow Light Generation
7.1 Introduction
7.2 Dispersion in Optical Waveguide
7.3 Slow Light Generation using Nonlinear Waveguide
7.4 Slow Light Generation using Linear Waveguide
7.5 Examine of Dispersion Waveguides
7.6 Applications

Chapter 8: Soliton Generation and Transmission in Optical Fiber Link
8.1 Soliton Chaotic Signal Generation using the MRRs
8.2 Single Dark and Bright Soliton Generation
8.3 Soliton Comb Generation using the Add/Drop System
8.4 Add/Drop Filter System Incorporating with Series of Ring Resonators
8.5 Ring Resonator System Analysis to Optimize the Soliton Transmission
8.6 Ring Resonator for Communication Applications
8.6.1 System Setup
8.6.2 WiMAX Signal Generation
8.7 Highly Chaotic Signal Generation and Transmission using PANDA Ring Resonator
8.8 Dark Soliton Generation and Tweezers Transmission using Fiber Optic Link
8.9 Quantum Entangled Photons Generation by Tweezers and Transmission using the Wireless Access Point System

Chapter 9: Conclusion
9.1 Conclusion
Acknowledgements
References

Dr. I.S. Amiri
I. S. Amiri, received his B. Sc (Hons, Applied Physics) from Public University of Oroumiyeh, Iran in 2001 and a gold medalist M. Sc. from Universiti Teknologi Malaysia (UTM), in 2009. He was awarded a PhD degree in nanophotonics in 2014. He has published more than 260 journals/conferences and books in Optical Soliton Communications, Nano photonics, Nonlinear Fiber Optics, Quantum Cryptography, Optical Tweezers, Nanotechnology, Biomedical Physics and Biotechnology Engineering.

Dr. Abdolkarim Afroozeh
Abdolkarim Afroozeh completed his MSc in the field of Astronomy at Shiraz University, Iran, in 2001. He was awarded a PhD degree in photonics from Universiti Teknologi Malaysia (UTM) in 2014. He has published more than 70 journals/conferences papers and books/chapters in Optical Soliton Communications, Laser Physics, photonics, Nonlinear fiber optics, Quantum Cryptography, Nanotechnology, Biomedical Physics and Biotechnology Engineering. Now, He is working in Young Researchers and Elite Club, Jahrom Branch, Islamic Azad University, Jahrom, Iran and The Department General of Fars Province Education, Iran.

Dr. Harith Ahmad
Harith Ahmad received the PhD degree in laser technology from the University of Wales, Swansea, UK, 1983. He is a Professor with the Department of Physics, University of Malaya where he has actively pursued research activities in the field of photonics since 1983. Currently he is also the Director of Photonics Research Centre, University of Malaya. He is the author of more than 850 papers in international journals. His research interest is in lasers, fiber-based devices for telecommunications, and fiber-based sensor devices. Dr. Ahmad is a Fellow of the Academy of Sciences, Malaysia.

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