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دانلود کتاب Fiber Optic Pulse Compression. Numerical techniques and applications with MATLAB
دانلود کتاب فشرده سازی پالس فیبر نوری. تکنیک ها و کاربردهای عددی با متلب
مشخصات کتاب
Fiber Optic Pulse Compression. Numerical techniques and applications with MATLAB
ویرایش:
نویسندگان: R Vasantha Jayakantha Raja. A Esther Lidiya
سری: IOP Series in Advances in Optics, Photonics and Optoelectronics
ISBN (شابک) : 9780750326865, 9780750326858
ناشر: IOP Publishing
سال نشر: 2022
تعداد صفحات: 188
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 28 مگابایت
قیمت کتاب (تومان) : 69,000
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توضیحاتی درمورد کتاب به خارجی
فهرست مطالب
PRELIMS.pdf Preface Acknowledgements Author biographies R Vasantha Jayakantha Raja A Esther Lidiya CH001.pdf Chapter 1 Introduction 1.1 Ultrashort pulses 1.2 Characteristics of optical pulses 1.3 Generation of broadband spectra 1.4 Time–bandwidth product 1.5 Applications of ultrashort pulses 1.5.1 Frequency metrology 1.5.2 Optical coherence tomography 1.5.3 Wavelength-division multiplexing 1.5.4 Materials processing 1.5.5 Medicine 1.5.6 Fusion energy 1.5.7 High-harmonic generation 1.6 Ultrashort-pulse-generation techniques 1.6.1 Mode-locking techniques 1.7 Pulse compression 1.7.1 Linear pulse compression 1.7.2 Nonlinear pulse compression 1.8 Experiments with pulse-compression techniques 1.9 Organization of this book References CH002.pdf Chapter 2 Photonic crystal fiber 2.1 Optical fiber 2.2 Guiding mechanism of optical fiber 2.3 Optical fiber construction 2.4 Modes in optical fiber 2.5 Normalized frequency (V number) of a core 2.6 Transmission window 2.7 Pulse compression in optical fiber 2.8 Photonic crystal fiber 2.8.1 Types of photonic crystal fiber (i) Photonic bandgap fiber (ii) Index-guiding PCF 2.9 Fabrication of photonic crystal fiber 2.10 Material selection for PCF modeling 2.11 Advantages 2.12 Pulse compression in PCF References CH003.pdf Chapter 3 Theory and modeling of photonic crystal fiber 3.1 Numerical methods 3.2 The fully vectorial effective index method 3.3 Group velocity dispersion (GVD) 3.4 Mode parameters of PCF 3.5 Linear properties of photonic crystal fiber 3.6 Nonlinear properties of photonic crystal fiber 3.7 Finite-element method 3.7.1 Perfectly matched layer 3.7.2 Photonic crystal fiber parameters References CH004.pdf Chapter 4 Soliton propagation 4.1 Soliton 4.2 Nonlinear propagation in optical fiber 4.2.1 Polarization response 4.2.2 Nonlinear Schrödinger equation 4.2.3 Deriving the nonlinear Schrödinger equation 4.2.4 Higher-order nonlinear effects 4.3 Split-step Fourier method 4.4 Nonlinear propagation in optical fiber 4.4.1 Linear and nonlinear effects of fiber (i) Dispersion (ii) Self-phase modulation (iii) Raman effect 4.4.2 Soliton generation 4.4.3 Modulational instability 4.5 Importance of optical solitons 4.6 Why solitons in photonic crystal fiber? References CH005.pdf Chapter 5 Conventional compression schemes 5.1 Mechanism of pulse compression 5.2 Soliton compression 5.2.1 Second-order soliton compression 5.2.2 Third-order soliton compression 5.3 Quality analysis 5.3.1 Compression factor 5.3.2 Pedestal energy 5.3.3 Quality factor 5.4 Adiabatic compression 5.5 Pulse-parameter equation 5.6 Projection operator method References CH006.pdf Chapter 6 Self-similar compression 6.1 Review of pulse compression 6.2 Pulse compression through self-similar analysis 6.2.1 Why use self-similar scale analysis in pulse compression? 6.2.2 Self-similar analysis 6.2.3 Designing PCF using self-similar analysis 6.2.4 Pedestal-free pulse compression References CH007.pdf Chapter 7 Pulse compression in nonlinear optical loop mirrors 7.1 Introduction 7.2 Nonlinear optical loop mirrors 7.3 Numerical model of an NOLM 7.4 Applications of NOLMs 7.4.1 Amplitude equalizers 7.4.2 Saturable absorbers 7.5 Soliton propagation in NOLMs 7.6 Soliton pulse compression in NOLMs 7.6.1 Demonstration of the technique 7.6.2 Effects of initial soliton order 7.6.3 Effect of initial frequency chirp 7.6.4 Influence of higher-order effects References CH008.pdf Chapter 8 Cascaded compression 8.1 Cascaded compression 8.2 Effect of temperature on chloroform-infiltrated PCF 8.3 Theoretical modeling of cascaded PCF 8.4 Compression through a cascaded PCF 8.5 Quality analysis References CH009.pdf Chapter 9 Supercontinuum compression 9.1 Supercontinuum generation 9.2 Physical mechanisms 9.2.1 Mechanism of supercontinuum generation (i) Soliton fission (ii) Modulational-instability-induced supercontinuum generation 9.3 Pulse compression through SCG 9.4 Tunable pulse compression 9.5 Theoretical model 9.5.1 Fiber design 9.5.2 Temperature-dependent pulse compression References APPA.pdf Chapter Determination of FWHM APPB.pdf Chapter Higher-order soliton compression APPC.pdf Chapter Adiabatic compression
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