Optical Multi-Bound Solitons

NOTE EDITORE

Optical Multi-Bound Solitons describes the generation and transmission of multi-bound solitons with the potential to form the basis of the temporal coding of optical data packets for next-generation nonlinear optical systems. The book deals with nonlinear systems in terms of their fundamental principles, associated phenomena, and signal processing applications in contemporary optical systems for communications and laser systems, with a touch of mathematical representation of nonlinear equations to offer insight into the nonlinear dynamics at different phases. The text not only delineates the strong background physics of such systems but also: Discusses the phase evolution of the optical carriers under the soliton envelopes for the generation of multi-bound solitons Explains the generation of multi-bound solitons through optical fibers Examines new types of multi-bound solitons in passive and active optical resonators Conducts bi-spectral analyses of multi-bound solitons to identify the phase and power amplitude distribution property of bound solitons Presents experimental techniques for the effective generation of bound solitons Optical Multi-Bound Solitons provides extensive coverage of multi-bound solitons from the dynamics of their formation to their transmission over guided optical media. Appendices are included to supplement a number of essential definitions, mathematical representations, and derivations, making this book an ideal theoretical reference text as well as a practical professional guidebook.

SOMMARIO

IntroductionUltrashort Pulse and Multi-Bound SolitonsMode-Locked Fiber Lasers as Soliton and Multi-Bound Soliton GeneratorsNonlinear Effects and Higher-Order Spectral AnalysesMotivation and Objectives of the Book ChaptersOrganization of the ChaptersReferences Generations of Solitons in Optical Fiber Ring ResonatorsNonlinear Schrodinger EquationsOptical SolitonsGeneration of Solitons Using Nonlinear Optical Fiber Ring ResonatorsActively FM Mode-Locked Fiber Rings: An ExperimentSimulation of Actively FM Mode-Locked Fiber LaserConcluding RemarksReferences Multi-Bound Solitons: Fundamentals and GenerationsIntroductory RemarksBound Solitons by Passive Mode-LockingBound Solitons by Active Mode-LockingRelative Phase Difference of Multi-Bound SolitonsMulti-Bound and Saddle Solitons: Experimental ObservationsConcluding RemarksReferences Multi-Bound Solitons under Carrier Phase ModulationElectro-Optic Phase ModulatorsCharacterization MeasurementsComb Spectrum in Actively Mode-Locked Fiber Ring Resonator Incorporating Phase ModulatorInfluence of Phase Modulator on Multi-Bound SolitonsConcluding RemarksReferences Bound-Soliton Bispectra and Nonlinear Photonic Signal ProcessingBispectrum of Multi-Bound SolitonsThird-Order Nonlinearity Four-Wave Mixing for Photonic Signal ProcessingApplications of FWM in Photonic Signal ProcessingConcluding RemarksReferences Solitons and Multi-Bound Solitons in Passive Mode-Locked Fiber LasersIntroductory RemarksSoliton Generation by Passively Mode-Locked Fiber LasersSoliton Dynamics in Dual-Polarization Mode-Locked Fiber LasersSoliton Deterministic Dynamics in Fiber Lasers: SimulationCavity-Induced Soliton Modulation Instability EffectMultisoliton Formation and Soliton Energy Quantization in Passively Mode-Locked Fiber LasersConcluding RemarksReferences Multirate Multiplication Soliton Fiber Ring and Nonlinear Loop LasersIntroductionActive Mode-Locked Fiber Ring Laser by Rational Harmonic DetuningRepetition-Rate Multiplication Ring Laser Using Temporal Diffraction EffectsBistability, Bifurcation, and Chaos in Nonlinear Loop Fiber LasersConcluding RemarksReferences Optical Multisoliton TransmissionIntroductionFundamentals of Nonlinear Propagation TheoryNumerical ApproachFundamental and Higher-Order SolitonsInteraction of Fundamental SolitonsSoliton Pulse Transmission Systems and ISMInteraction between Two Solitons in an Optical FiberGeneration and Transmission of Multi-Bound Solitons: ExperimentsReferences Concluding RemarksReferences Appendix A: Generic Mathematical Aspects of Nonlinear DynamicsIntroductory RemarksNonlinear Systems: Phase Spaces and Dynamical StatesBifurcationChaosConcluding RemarksReferences Appendix B: Derivation of the Nonlinear Schrodinger Equation (NLSE)Wave Equation in Nonlinear OpticsGeneralized Nonlinear Schrodinger Equation Appendix C: Calculation Procedures of Triple Correlation and Bispectrum with ExamplesTriple Correlation and Bispectrum EstimationProperties of BispectrumBispectrum of Optical Pulse PropagationReference Appendix D: Simulink ModelsMATLAB® and Simulink® Modeling PlatformsWavelength Converter in WDM SystemNonlinear Phase Conjugation for Mid-Link Spectral InversionPulse GeneratorOTDM DemultiplexerTriple CorrelationReference Appendix E: Optical WaveguidesOverviewOptical Fiber: General PropertiesSignal Propagation in Optical FibersTransfer Function of Single Mode FibersFiber NonlinearityNumerical Solution: Split-Step Fourier MethodReferences

AUTORE

Le Nguyen Binh holds a B.Eng (Hons) and Ph.D from the University of Western Australia. He is currently a technical director at Huawei’s European Research Centre in Munich, Germany, and has been awarded three Huawei Technologies Gold Medals for his work on advanced optical communication technologies. He was previously the chair of Commission D (Electronics and Photonics) of the National Committee for Radio Sciences of the Australian Academy of Sciences, and a professorial fellow at Nanyang Technological University, Christian-Albrechts-Universität zu Kiel, and various Australian universities. Widely published, Dr. Binh is the series editor of Photonics and Optics for CRC Press.

ALTRE INFORMAZIONI

• Condizione: Nuovo
• ISBN: 9781482237634
• Collana: Optics and Photonics
• Dimensioni: 9.25 x 6.125 in Ø 2.75 lb
• Formato: Copertina rigida
• Illustration Notes: 376 b/w images, 19 color images and 13 tables
• Pagine Arabe: 547
• Pagine Romane: xx