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Beam propagation method for design of optical waveguide devices / / Ginés Lifante Pedrola
| Beam propagation method for design of optical waveguide devices / / Ginés Lifante Pedrola |
| Autore | Lifante Ginés |
| Pubbl/distr/stampa | Chichester, England : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (541 p.) |
| Disciplina | 621.36 |
| Soggetto topico |
Beam optics
Light - Transmission Optical wave guides |
| ISBN |
1-119-08339-7
1-119-08340-0 1-119-08338-9 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title Page; Table of Contents; Preface; List of Acronyms; List of Symbols; 1 Electromagnetic Theory of Light; Introduction; 1.1 Electromagnetic Waves; 1.2 Monochromatic Waves; 1.3 Wave Equation Formulation in Terms of the Transverse Field Components; References; 2 The Beam-Propagation Method; Introduction; 2.1 Paraxial Propagation: The Slowly Varying Envelope Approximation (SVEA). Full Vectorial BPM Equations; 2.2 Semi-Vectorial and Scalar Beam Propagation Equations; 2.3 BPM Based on the Finite Difference Approach; 2.4 FD-Two-Dimensional Scalar BPM; 2.5 Von Neumann Analysis of FD-BPM
2.6 Boundary Conditions2.7 Obtaining the Eigenmodes Using BPM; References; 3 Vectorial and Three-Dimensional Beam Propagation Techniques; Introduction; 3.1 Two-Dimensional Vectorial Beam Propagation Method; 3.2 Three-Dimensional BPM Based on the Electric Field; 3.3 Three-Dimensional BPM Based on the Magnetic Field; References; 4 Special Topics on BPM; Introduction; 4.1 Wide-Angle Beam Propagation Method; 4.2 Treatment of Discontinuities in BPM; 4.3 Bidirectional BPM; 4.4 Active Waveguides; 4.5 Second-Order Non-Linear Beam Propagation Techniques; 4.6 BPM in Anisotropic Waveguides 4.7 Time Domain BPM4.8 Finite-Difference Time-Domain Method (FD-TD); References; 5 BPM Analysis of Integrated Photonic Devices; Introduction; 5.1 Curved Waveguides; 5.2 Tapers: Y-Junctions; 5.3 Directional Couplers; 5.4 Multimode Interference Devices; 5.5 Waveguide Gratings; 5.6 Arrayed Waveguide Grating Demultiplexer; 5.7 Mach-Zehnder Interferometer as Intensity Modulator; 5.8 TE-TM Converters; 5.9 Waveguide Laser; 5.10 SHG Using QPM in Waveguides; References; Appendix A Finite Difference Approximations of Derivatives; A.1 FD-Approximations of First-Order Derivatives A.2 FD-Approximation of Second-Order DerivativesAppendix B Tridiagonal System: The Thomas Method Algorithm; Reference; Appendix C Correlation and Relative Power between Optical Fields; C.1 Correlation between Two Optical Fields; C.2 Power Contribution of a Waveguide Mode; References; Appendix D Poynting Vector Associated to an Electromagnetic Wave Using the SVE Fields; D.1 Poynting Vector in 2D-Structures; D.2 Poynting Vector in 3D-Structures; Reference; Appendix E Finite Difference FV-BPM Based on the Electric Field Using the Scheme Parameter Control; E.1 First Component of the First Step E.2 Second Component of the First StepE.3 Second Component of the Second Step; E.4 First Component of the Second Step; Appendix F Linear Electro-Optic Effect; Reference; Appendix G Electro-Optic Effect in GaAs Crystal; References; Appendix H Electro-Optic Effect in LiNbO3 Crystal; References; Appendix I Padé Polynomials for Wide-Band TD-BPM; Appendix J Obtaining the Dispersion Relation for a Monomode Waveguide Using FDTD; Reference; Appendix K Electric Field Distribution in Coplanar Electrodes; K.1 Symmetric Coplanar Strip Configuration K.2 Symmetric Complementary Coplanar Strip Configuration |
| Record Nr. | UNINA-9910131546003321 |
Lifante Ginés
|
||
| Chichester, England : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Beam propagation method for design of optical waveguide devices / / Ginés Lifante Pedrola
| Beam propagation method for design of optical waveguide devices / / Ginés Lifante Pedrola |
| Autore | Lifante Ginés |
| Pubbl/distr/stampa | Chichester, England : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (541 p.) |
| Disciplina | 621.36 |
| Soggetto topico |
Beam optics
Light - Transmission Optical wave guides |
| ISBN |
1-119-08339-7
1-119-08340-0 1-119-08338-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title Page; Table of Contents; Preface; List of Acronyms; List of Symbols; 1 Electromagnetic Theory of Light; Introduction; 1.1 Electromagnetic Waves; 1.2 Monochromatic Waves; 1.3 Wave Equation Formulation in Terms of the Transverse Field Components; References; 2 The Beam-Propagation Method; Introduction; 2.1 Paraxial Propagation: The Slowly Varying Envelope Approximation (SVEA). Full Vectorial BPM Equations; 2.2 Semi-Vectorial and Scalar Beam Propagation Equations; 2.3 BPM Based on the Finite Difference Approach; 2.4 FD-Two-Dimensional Scalar BPM; 2.5 Von Neumann Analysis of FD-BPM
2.6 Boundary Conditions2.7 Obtaining the Eigenmodes Using BPM; References; 3 Vectorial and Three-Dimensional Beam Propagation Techniques; Introduction; 3.1 Two-Dimensional Vectorial Beam Propagation Method; 3.2 Three-Dimensional BPM Based on the Electric Field; 3.3 Three-Dimensional BPM Based on the Magnetic Field; References; 4 Special Topics on BPM; Introduction; 4.1 Wide-Angle Beam Propagation Method; 4.2 Treatment of Discontinuities in BPM; 4.3 Bidirectional BPM; 4.4 Active Waveguides; 4.5 Second-Order Non-Linear Beam Propagation Techniques; 4.6 BPM in Anisotropic Waveguides 4.7 Time Domain BPM4.8 Finite-Difference Time-Domain Method (FD-TD); References; 5 BPM Analysis of Integrated Photonic Devices; Introduction; 5.1 Curved Waveguides; 5.2 Tapers: Y-Junctions; 5.3 Directional Couplers; 5.4 Multimode Interference Devices; 5.5 Waveguide Gratings; 5.6 Arrayed Waveguide Grating Demultiplexer; 5.7 Mach-Zehnder Interferometer as Intensity Modulator; 5.8 TE-TM Converters; 5.9 Waveguide Laser; 5.10 SHG Using QPM in Waveguides; References; Appendix A Finite Difference Approximations of Derivatives; A.1 FD-Approximations of First-Order Derivatives A.2 FD-Approximation of Second-Order DerivativesAppendix B Tridiagonal System: The Thomas Method Algorithm; Reference; Appendix C Correlation and Relative Power between Optical Fields; C.1 Correlation between Two Optical Fields; C.2 Power Contribution of a Waveguide Mode; References; Appendix D Poynting Vector Associated to an Electromagnetic Wave Using the SVE Fields; D.1 Poynting Vector in 2D-Structures; D.2 Poynting Vector in 3D-Structures; Reference; Appendix E Finite Difference FV-BPM Based on the Electric Field Using the Scheme Parameter Control; E.1 First Component of the First Step E.2 Second Component of the First StepE.3 Second Component of the Second Step; E.4 First Component of the Second Step; Appendix F Linear Electro-Optic Effect; Reference; Appendix G Electro-Optic Effect in GaAs Crystal; References; Appendix H Electro-Optic Effect in LiNbO3 Crystal; References; Appendix I Padé Polynomials for Wide-Band TD-BPM; Appendix J Obtaining the Dispersion Relation for a Monomode Waveguide Using FDTD; Reference; Appendix K Electric Field Distribution in Coplanar Electrodes; K.1 Symmetric Coplanar Strip Configuration K.2 Symmetric Complementary Coplanar Strip Configuration |
| Record Nr. | UNINA-9910822438303321 |
|
Lifante Ginés
|
||
| Chichester, England : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Integrated photonics [[electronic resource] ] : fundamentals / / Ginés Lifante
| Integrated photonics [[electronic resource] ] : fundamentals / / Ginés Lifante |
| Autore | Lifante Ginés |
| Pubbl/distr/stampa | Hoboken, NJ, : J. Wiley, 2003 |
| Descrizione fisica | 1 online resource (200 p.) |
| Disciplina | 621.36 |
| Soggetto topico | Photonics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-27128-0
9780470861398 9786610271283 0-470-34034-7 0-470-86139-8 0-470-86140-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
INTEGRATED PHOTONICS; CONTENTS; Preface; About the Author; 1 Introduction to Integrated Photonics; Introduction; 1.1 Integrated Photonics; 1.2 Brief History of Integrated Photonics; 1.3 Characteristics of the Integrated Photonic Components; 1.4 Integrated Photonics Technology; 1.5 Basic Integrated Photonic Components; 1.6 Some Examples of Integrated Photonics Devices; 1.7 Structure of the Book; References; Further Reading; 2 Review of the Electromagnetic Theory of Light; Introduction; 2.1 Electromagnetic Waves; 2.1.1 Maxwell's equations: wave equation; 2.1.2 Wave equation in dielectric media
2.1.3 Monochromatic waves 2.1.4 Monochromatic plane waves in dielectric media; 2.1.5 Polarisation of electromagnetic waves; 2.1.6 Light propagation in absorbing media; 2.2 EM Waves at Planar Dielectric Interfaces; 2.2.1 Boundary conditions at the interface; 2.2.2 Reflection and transmission coefficients: reflectance and transmittance; 2.2.3 Total internal reflection; References; Further Reading; 3 Theory of Integrated Optic Waveguides; Introduction; 3.1 Optical Waveguides: Basic Geometries; 3.2 Types of Modes in Planar Optical Waveguides; 3.3 Wave Equation in Planar Waveguides 3.4 Guided Modes in Step-index Planar Waveguides 3.5 Graded-index Planar Waveguides; 3.5.1 Multi-layer approximation; 3.5.2 The ray approximation; 3.5.3 Reconstruction of index profiles: the inverse WKB method; 3.6 Guided Modes in Channel Waveguides; 3.6.1 Marcatili's method; 3.6.2 The effective index method; Notes; References; 4 Coupled Mode Theory: Waveguide Gratings; Introduction; 4.1 Modal Coupling; 4.1.1 Modal orthogonality and normalisation; 4.1.2 Modal expansion of the electromagnetic field; 4.1.3 Coupled mode equations: coupling coefficients; 4.1.4 Coupling mode theory 4.1.5 Co-directional coupling 4.1.6 Contra-directional coupling; 4.2 Diffraction Gratings in Waveguides; 4.2.1 Waveguide diffraction gratings; 4.2.2 Mathematical description of waveguide gratings; 4.2.3 Collinear mode coupling induced by gratings; 4.2.4 Coupling coefficients calculation; 4.2.5 Coupling coefficients in modulation index gratings; 4.2.6 Coupling coefficients in relief diffraction gratings; References; Further Reading; 5 Light Propagation in Waveguides: The Beam Propagation Method; Introduction; 5.1 Paraxial Propagation: Fresnel Equation 5.2 Fast Fourier Transform Method (FFT-BPM)5.2.1 Solution based on discrete fourier transform; 5.3 Method Based on Finite Differences (FD-BPM); 5.4 Boundary Conditions; 5.4.1 Transparent boundary conditions; 5.5 Spatial Frequencies Filtering; 5.6 Modal Description Based on BPM; 5.6.1 Modal field calculation using BPM; Note; References; Further Reading; Appendix 1 Complex Notation of the Electric and Magnetic Fields; Appendix 2 Phase Shifts for TE and TM Incidence; Appendix 3 Marcatili's Method for Solving Guided Modes in Rectangular Channel Waveguides Appendix 4 Demonstration of Formula (4.3) |
| Record Nr. | UNINA-9910143228703321 |
|
Lifante Ginés
|
||
| Hoboken, NJ, : J. Wiley, 2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Integrated photonics [[electronic resource] ] : fundamentals / / Ginés Lifante
| Integrated photonics [[electronic resource] ] : fundamentals / / Ginés Lifante |
| Autore | Lifante Ginés |
| Pubbl/distr/stampa | Hoboken, NJ, : J. Wiley, 2003 |
| Descrizione fisica | 1 online resource (200 p.) |
| Disciplina | 621.36 |
| Soggetto topico | Photonics |
| ISBN |
1-280-27128-0
9780470861398 9786610271283 0-470-34034-7 0-470-86139-8 0-470-86140-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
INTEGRATED PHOTONICS; CONTENTS; Preface; About the Author; 1 Introduction to Integrated Photonics; Introduction; 1.1 Integrated Photonics; 1.2 Brief History of Integrated Photonics; 1.3 Characteristics of the Integrated Photonic Components; 1.4 Integrated Photonics Technology; 1.5 Basic Integrated Photonic Components; 1.6 Some Examples of Integrated Photonics Devices; 1.7 Structure of the Book; References; Further Reading; 2 Review of the Electromagnetic Theory of Light; Introduction; 2.1 Electromagnetic Waves; 2.1.1 Maxwell's equations: wave equation; 2.1.2 Wave equation in dielectric media
2.1.3 Monochromatic waves 2.1.4 Monochromatic plane waves in dielectric media; 2.1.5 Polarisation of electromagnetic waves; 2.1.6 Light propagation in absorbing media; 2.2 EM Waves at Planar Dielectric Interfaces; 2.2.1 Boundary conditions at the interface; 2.2.2 Reflection and transmission coefficients: reflectance and transmittance; 2.2.3 Total internal reflection; References; Further Reading; 3 Theory of Integrated Optic Waveguides; Introduction; 3.1 Optical Waveguides: Basic Geometries; 3.2 Types of Modes in Planar Optical Waveguides; 3.3 Wave Equation in Planar Waveguides 3.4 Guided Modes in Step-index Planar Waveguides 3.5 Graded-index Planar Waveguides; 3.5.1 Multi-layer approximation; 3.5.2 The ray approximation; 3.5.3 Reconstruction of index profiles: the inverse WKB method; 3.6 Guided Modes in Channel Waveguides; 3.6.1 Marcatili's method; 3.6.2 The effective index method; Notes; References; 4 Coupled Mode Theory: Waveguide Gratings; Introduction; 4.1 Modal Coupling; 4.1.1 Modal orthogonality and normalisation; 4.1.2 Modal expansion of the electromagnetic field; 4.1.3 Coupled mode equations: coupling coefficients; 4.1.4 Coupling mode theory 4.1.5 Co-directional coupling 4.1.6 Contra-directional coupling; 4.2 Diffraction Gratings in Waveguides; 4.2.1 Waveguide diffraction gratings; 4.2.2 Mathematical description of waveguide gratings; 4.2.3 Collinear mode coupling induced by gratings; 4.2.4 Coupling coefficients calculation; 4.2.5 Coupling coefficients in modulation index gratings; 4.2.6 Coupling coefficients in relief diffraction gratings; References; Further Reading; 5 Light Propagation in Waveguides: The Beam Propagation Method; Introduction; 5.1 Paraxial Propagation: Fresnel Equation 5.2 Fast Fourier Transform Method (FFT-BPM)5.2.1 Solution based on discrete fourier transform; 5.3 Method Based on Finite Differences (FD-BPM); 5.4 Boundary Conditions; 5.4.1 Transparent boundary conditions; 5.5 Spatial Frequencies Filtering; 5.6 Modal Description Based on BPM; 5.6.1 Modal field calculation using BPM; Note; References; Further Reading; Appendix 1 Complex Notation of the Electric and Magnetic Fields; Appendix 2 Phase Shifts for TE and TM Incidence; Appendix 3 Marcatili's Method for Solving Guided Modes in Rectangular Channel Waveguides Appendix 4 Demonstration of Formula (4.3) |
| Record Nr. | UNINA-9910830706503321 |
|
Lifante Ginés
|
||
| Hoboken, NJ, : J. Wiley, 2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||