04070nam 2200625Ia 450 991014317590332120230607214142.01-280-26482-997866102648270-470-24259-00-471-46520-80-471-22160-0(CKB)111087027125456(EBL)219008(OCoLC)475925577(SSID)ssj0000080448(PQKBManifestationID)11125839(PQKBTitleCode)TC0000080448(PQKBWorkID)10095579(PQKB)10560439(MiAaPQ)EBC219008(EXLCZ)9911108702712545620010227d2001 uy 0engur|n|---|||||txtccrIntroduction to optical waveguide analysis[electronic resource] solving Maxwell's equations and the Schrödinger equation /Kenji Kawano and Tsutomu KitohNew York J. Wileyc20011 online resource (292 p.)"A Wiley-Interscience publication."0-471-40634-1 Includes bibliographical references and index.Contents; Preface; 1 Fundamental Equations; 1.1 Maxwell's Equations; 1.2 Wave Equations; 1.3 Poynting Vectors; 1.4 Boundary Conditions for Electromagnetic Fields; Problems; Reference; 2 Analytical Methods; 2.1 Method for a Three-Layer Slab Optical Waveguide; 2.2 Effective Index Method; 2.3 Marcatili's Method; 2.4 Method for an Optical Fiber; Problems; References; 3 Finite-Element Methods; 3.1 Variational Method; 3.2 Galerkin Method; 3.3 Area Coordinates and Triangular Elements; 3.4 Derivation of Eigenvalue Matrix Equations; 3.5 Matrix Elements; 3.6 Programming; 3.7 Boundary ConditionsProblemsReferences; 4 Finite-Difference Methods; 4.1 Finite-Difference Approximations; 4.2 Wave Equations; 4.3 Finite-Difference Expressions of Wave Equations; 4.4 Programming; 4.5 Boundary Conditions; 4.6 Numerical Example; Problems; References; 5 Beam Propagation Methods; 5.1 Fast Fourier Transform Beam Propagation Method; 5.2 Finite-Difference Beam Propagation Method; 5.3 Wide-Angle Analysis Using Padé Approximant Operators; 5.4 Three-Dimensional Semivectorial Analysis; 5.5 Three-Dimensional Fully Vectorial Analysis; Problems; References; 6 Finite-Difference Time-Domain Method6.1 Discretization of Electromagnetic Fields6.2 Stability Condition; 6.3 Absorbing Boundary Conditions; Problems; References; 7 Schrödinger Equation; 7.1 Time-Dependent State; 7.2 Finite-Difference Analysis of Time-Independent State; 7.3 Finite-Element Analysis of Time-Independent State; References; Appendix A: Vectorial Formulas; Appendix B: Integration Formula for Area Coordinates; Index; A; B; C; D; E; F; G; H; I; J; L; M; N; O; P; Q; R; S; T; V; W; YA complete survey of modern design and analysis techniques for optical waveguidesThis volume thoroughly details modern and widely accepted methods for designing the optical waveguides used in telecommunications systems. It offers a straightforward presentation of the sophisticated techniques used in waveguide analysis and enables a quick grasp of modern numerical methods with easy mathematics. The book is intended to guide the reader to a comprehensive understanding of optical waveguide analysis through self-study. This comprehensive presentation includes:* An extensive and exhaustive Optical wave guidesMathematical modelsMaxwell equationsSchrödinger equationOptical wave guidesMathematical models.Maxwell equations.Schrödinger equation.621.36621.381/331Kawano Kenji666166Kitoh Tsutomu950591MiAaPQMiAaPQMiAaPQBOOK9910143175903321Introduction to optical waveguide analysis2149261UNINA