Verfügbarkeit: Principles of electromagnetic waves and materials

Principles of electromagnetic waves and materials:

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1. Verfasser:	Kalluri, Dikshitulu K. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton Taylor & Francis 2013
Schlagworte:	Elektromagnetische Welle Elektromagnetismus Mathematisches Modell Computersimulation
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	graph. Darst.
Beschreibung:	XXIII, 438 S.
ISBN:	9781466593725

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Datensatz im Suchindex

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adam_text	Titel: Principles of electromagnetic waves and materials Autor: Kalluri, Dikshitulu K Jahr: 2013 Contents Preface..............................................................................................................................................xi Acknowledgments.....................................................................................................................xvii Author..........................................................................................................................................xix Selected List of Symbols.............................................................................................................xxi List of Book Sources..................................................................................................................xxiii Part I Electromagnetics of Bounded Simple Media 1 Electromagnetics of Simple Media.....................................................................................3 1.1 Introduction...................................................................................................................3 1.2 Simple Medium.............................................................................................................4 1.3 Time-Domain Electromagnetics.................................................................................5 1.3.1 Radiation by an Impulse Current Source.....................................................7 1.4 Time-Harmonic Fields..................................................................................................9 1.5 Quasistatic and Static Approximations...................................................................11 1.6 Maxwell s Equations in Integral Form and Circuit Parameters...........................12 References...............................................................................................................................16 2 Electromagnetics of Simple Media: One-Dimensional Solution...............................17 2.1 Uniform Plane Waves in Sourceless Medium (py = 0, /source = 0)..........................17 2.2 Good Conductor Approximation..............................................................................18 2.3 Uniform Plane Wave in a Good Conductor: Skin Effect.......................................19 2.4 Boundary Conditions at the Interface of a Perfect Electric Conductor with a Dielectric.......................................................................................19 2.5 AC Resistance..............................................................................................................20 2.6 AC Resistance of Round Wires.................................................................................22 2.7 Voltage and Current Harmonic Waves: Transmission Lines................................23 2.8 Bounded Transmission Line......................................................................................27 2.9 Electromagnetic Wave Polarization..........................................................................29 2.10 Arbitrary Direction of Propagation..........................................................................30 2.11 Wave Reflection...........................................................................................................31 2.12 Incidence of p Wave: Parallel-Polarized...................................................................32 2.13 Incidence of s Wave: Perpendicular-Polarized.......................................................34 2.14 Critical Angle and Surface Wave..............................................................................35 2.15 One-Dimensional Cylindrical Wave and Bessel Functions..................................37 References...............................................................................................................................43 3 Two-Dimensional Problems and Waveguides...............................................................45 3.1 Two-Dimensional Solutions in Cartesian Coordinates.........................................45 3.2 TMm Modes in a Rectangular Waveguide..............................................................47 3.3 TEmn Modes in a Rectangular Waveguide...............................................................50 3.4 Dominant Mode in a Rectangular Waveguide: TE10 Mode...................................52 3.5 Power Flow in a Waveguide: TE10 Mode..................................................................53 vi Contents 3.6 Attenuation of TE10 Mode due to Imperfect Conductors and Dielectric Medium......................................................................................................53 3.7 Cylindrical Waveguide: TM Modes.........................................................................54 3.8 Cylindrical Waveguide: TE Modes...........................................................................55 3.9 Sector Waveguide........................................................................................................56 3.10 Dielectric Cylindrical Waveguide-Optical Fiber.................................................57 References...............................................................................................................................60 4 Three-Dimensional Solutions...........................................................................................61 4.1 Rectangular Cavity with PEC Boundaries: TM Modes.........................................61 4.2 Rectangular Cavity with PEC Boundaries: TE Modes..........................................62 4.3 Q of a Cavity................................................................................................................63 Reference.................................................................................................................................64 5 Spherical Waves and Applications....................................................................................65 5.1 Half-Integral Bessel Functions..................................................................................65 5.2 Solutions of Scalar Helmholtz Equation..................................................................66 5.3 Vector Helmholtz Equation.......................................................................................68 5.4 TMr Modes...................................................................................................................69 5.5 TEr Modes.....................................................................................................................70 5.6 Spherical Cavity..........................................................................................................71 6 Laplace Equation: Static and Low-Frequency Approximations..................................75 6.1 One-Dimensional Solutions.......................................................................................76 6.2 Two-Dimensional Solutions......................................................................................76 6.2.1 Cartesian Coordinates...................................................................................76 6.2.2 Circular Cylindrical Coordinates................................................................82 6.3 Three-Dimensional Solution.....................................................................................87 6.3.1 Cartesian Coordinates...................................................................................87 6.3.2 Cylindrical Coordinates................................................................................88 6.3.3 Spherical Coordinates...................................................................................88 References...............................................................................................................................91 7 Miscellaneous Topics on Waves........................................................................................93 7.1 Group Velocity vg........................................................................................................93 7.2 Green s Function..........................................................................................................94 7.3 Network Formulation.................................................................................................98 7.3.1 ABCD Parameters..........................................................................................98 7.3.2 S Parameters.................................................................................................101 7.4 Stop Bands of a Periodic Media..............................................................................103 7.5 Radiation....................................................................................................................106 7.5.1 Hertzian Dipole............................................................................................109 7.5.2 Half-Wave Dipole.........................................................................................110 7.5.3 Dipoles of Arbitrary Length.......................................................................112 7.5.4 Shaping the Radiation Pattern...................................................................112 7.5.5 Antenna Problem as a Boundary Value Problem....................................113 7.5.6 Traveling Wave Antenna and Cerenkov Radiation................................113 7.5.7 Small Circular Loop Antenna....................................................................114 7.5.8 Other Practical Radiating Systems............................................................115 Contents vii 7.6 Scattering....................................................................................................................115 7.6.1 Cylindrical Wave Transformations...........................................................116 7.6.2 Calculation of Current Induced on the Cylinder....................................116 7.6.3 Scattering Width..........................................................................................118 7.7 Diffraction..................................................................................................................119 7.7.1 Magnetic Current and Electric Vector Potential......................................119 7.7.2 Far-Zone Fields and Radiation Intensity..................................................122 7.7.3 Elemental Plane Wave Source and Radiation Intensity.........................123 7.7.4 Diffraction by the Circular Hole................................................................124 References.............................................................................................................................126 Part II Electromagnetic Equations of Complex Media 8 Electromagnetic Modeling of Complex Materials.......................................................129 8.1 Volume of Electric Dipoles.......................................................................................129 8.2 Frequency-Dependent Dielectric Constant...........................................................132 8.3 Modeling of Metals...................................................................................................134 8.4 Plasma Medium........................................................................................................135 8.5 Polarizability of Dielectrics.....................................................................................137 8.6 Mixing Formula........................................................................................................141 8.7 Good Conductors and Semiconductors.................................................................142 8.8 Perfect Conductors and Superconductors.............................................................144 8.9 Magnetic Materials...................................................................................................151 8.10 Chiral Medium..........................................................................................................156 8.11 Plasmonics and Metamaterials...............................................................................160 References.............................................................................................................................160 9 Waves in Isotropic Cold Plasma: Dispersive Medium...............................................161 9.1 Basic Equations..........................................................................................................161 9.2 Dielectric-Dielectric Spatial Boundary.................................................................165 9.3 Reflection by a Plasma Half-Space.........................................................................168 9.4 Reflection by a Plasma Slab.....................................................................................169 9.5 Tunneling of Power through a Plasma Slab..........................................................174 9.6 Inhomogeneous Slab Problem.................................................................................177 9.7 Periodic Layers of Plasma........................................................................................178 9.8 Surface Waves............................................................................................................182 9.9 Transient Response of a Plasma Half-Space..........................................................186 9.9.1 Isotropic Plasma Half-Space s Wave.........................................................186 9.9.2 Impulse Response of Several Other Cases Including Plasma Slab.................................................................................188 9.10 Solitons.......................................................................................................................188 References.............................................................................................................................188 10 Spatial Dispersion and Warm Plasma............................................................................191 10.1 Waves in a Compressible Gas..................................................................................191 10.2 Waves in Warm Plasma............................................................................................193 10.3 Constitutive Relation for a Lossy Warm Plasma..................................................197 10.4 Dielectric Model of Warm Loss-Free Plasma........................................................199 viii Contents 10.5 Conductor Model of Warm Lossy Plasma.............................................................200 10.6 Spatial Dispersion and Nonlocal Metal Optics....................................................201 10.7 Technical Definition of Plasma State......................................................................202 10.7.1 Temperate plasma........................................................................................202 10.7.2 Debye Length, Collective Behavior, and Overall Charge Neutrality..........................................................................202 10.7.3 Unneutralized Plasma.................................................................................203 References.............................................................................................................................203 11 Wave in Anisotropic Media and Magnetoplasma.......................................................205 11.1 Introduction...............................................................................................................205 11.2 Basic Field Equations for a Cold Anisotropic Plasma Medium.........................205 11.3 One-Dimensional Equations: Longitudinal Propagation and L and R Waves...........................................................................................................206 11.4 One-Dimensional Equations: Transverse Propagation: O Wave........................211 11.5 One-Dimensional Solution: Transverse Propagation: X Wave...........................211 11.6 Dielectric Tensor of a Lossy Magnetoplasma Medium.......................................216 11.7 Periodic Layers of Magnetoplasma........................................................................217 11.8 Surface Magnetoplasmons.......................................................................................217 11.9 Surface Magnetoplasmons in Periodic Media......................................................218 11.10 Permeability Tensor..................................................................................................218 References.............................................................................................................................218 12 Optical Waves in Anisotropic Crystals..........................................................................221 12.1 Wave Propagation in a Biaxial Crystal along the Principal Axes......................221 12.2 Propagation in an Arbitrary Direction..................................................................223 12.3 Propagation in an Arbitrary Direction: Uniaxial Crystal...................................225 12.4 fc-Surface.....................................................................................................................226 12.5 Group Velocity as a Function of Polar Angle........................................................228 12.6 Reflection by an Anisotropic Half-Space...............................................................231 References.............................................................................................................................232 Part HI Appendices Appendix 1A: Vector Formulas and Coordinate Systems..............................................235 Appendix IB: Retarded Potentials and Review of Potentials for the Static Cases.....245 Appendix 1C: Poynting Theorem........................................................................................253 Appendix ID: Low-Frequency Approximation of Maxwell s Equations R, L, C, and MemristorM................................................................................................................255 Appendix 2A: AC Resistance of a Round Wire When the Skin Depth 8 Is Comparable to the Radius a of the Wire........................................................................261 Appendix 2B: Transmission Lines: Power Calculation...................................................265 Appendix 2C: Introduction to the Smith Chart................................................................269 Appendix 2D: Nonuniform Transmission Lines.............................................................289 Contents ix Appendix 4A: Calculation of Losses in a Good Conductor at High Frequencies: Surface Resistance Rs................................................................................297 Appendix 6A: On Restricted Fourier Series Expansion.................................................299 Appendix 7A: Two- and Three-Dimensional Green s Functions..................................303 Appendix 8A: Wave Propagation in Chiral Media..........................................................317 Appendix 8B: Left-Handed Materials and Transmission Line Analogies..................319 Appendix 9A: Backscatter from a Plasma Plume due to Excitation of Surface Waves..............................................................................................................333 Appendix 10A: Thin Film Reflection Properties of a Warm Isotropic Plasma Slab between Two Half-Space Dielectric Media..........................................................345 Appendix 10B: First-Order Coupled Differential Equations for Waves in Inhomogeneous Warm Magnetoplasmas.................................................................367 Appendix IOC: Waveguide Modes of a Warm Drifting Uniaxial Electron Plasma.... 371 Appendix HA: Faraday Rotation versus Natural Rotation............................................377 Appendix 11B: Ferrites and Permeability Tensor............................................................381 Part IV Chapter Problems Problems......................................................................................................................................387 Index.............................................................................................................................................423
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title	Principles of electromagnetic waves and materials
title_auth	Principles of electromagnetic waves and materials
title_exact_search	Principles of electromagnetic waves and materials
title_full	Principles of electromagnetic waves and materials Dikshitulu K. Kalluri
title_fullStr	Principles of electromagnetic waves and materials Dikshitulu K. Kalluri
title_full_unstemmed	Principles of electromagnetic waves and materials Dikshitulu K. Kalluri
title_short	Principles of electromagnetic waves and materials
title_sort	principles of electromagnetic waves and materials
topic	Elektromagnetische Welle (DE-588)4014301-6 gnd Elektromagnetismus (DE-588)4014306-5 gnd Mathematisches Modell (DE-588)4114528-8 gnd Computersimulation (DE-588)4148259-1 gnd
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