Verfügbarkeit: Theory and computation of electromagnetic fields

Theory and computation of electromagnetic fields:

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Bibliographische Detailangaben
1. Verfasser:	Jin, Jian-Ming 1962- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	[Piscataway, NJ] [u.a.] IEEE Press [u.a.] 2010
Schlagworte:	Mathematik Angewandte Mathematik Elektromagnetisches Feld Computersimulation Electromagnetic fields / Mathematics / Textbooks
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 572 S. Ill., graph. Darst.
ISBN:	9780470533598

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Datensatz im Suchindex

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adam_text	Titel: Theory and computation of electromagnetic fields Autor: Jin, Jian-Ming Jahr: 2010 CONTENTS PREFACE xi 2.1.1 Static Fields 44 ACKNOWLEDGMENTS xv 2.1.2 Time-Harmonic Fields and the Lorenz Gauge Condition 45 PARTI ELECTROMAGNETIC 2.2 Solution of Vector Potentials in Free FIELD THEORY sPace 47 2.2.1 Delta Function and Green s CHAPTER1 BASIC ELECTROMAGNETIC THEORY Function 48 2.2.2 Green s Function in Free Space 49 1.1 Review of Vector Analysis 3 2.2.3 Field-Source Relations in Free 1.1.1 Vector Operations and Integral Space 50 Theorems 3 2.2.4 Why Use Auxiliary Potential 1.1.2 Symbolic Vector Method 6 Functions 51 1.1.3 Helmholtz Decomposition 2.2.5 Free-Space Dyadic Green s Theorem 8 Functions 52 1.1.4 Green s Theorems 9 2.3 Electromagnetic Radiation in Free 1.2 Maxwell s Equations in Terms of Total Space 55 Charges and Currents 9 2.3.1 Infinitesimal Electric Dipole 55 1.2.1 Maxwell s Equations in Integral 2.3.2 Finite Electric Dipole 57 Form 11 2.3.3 Far-Field Approximation and 1.2.2 Maxwell s Equations in Differential the Sommerfeld Radiation Form 14 Condition 59 1.2.3 Current Continuity Equation 14 2.3.4 Circular Current Loop and Magnetic 1.2.4 The Lorentz Force Law 15 Dipole 61 1.3 Constitutive Relations 15 2.4 Radiation by Surface Currents and Phased 1.3.1 Electric Polarization 15 Arrays 63 1.3.2 Magnetization 17 2.4.1 Radiation by a Surface Current 63 1.3.3 Electric Conduction 19 2.4.2 Radiation by a Phased Array 65 1.3.4 Classification of Media 19 Notes 69 1.4 Maxwell s Equations in Terms of Free References 69 Charges and Currents 22 Problems 69 1.5 Boundary Conditions 24 1.6 Energy, Power, and Poynting s Theorem 26 CHAPTER3 ELECTROMAGNETIC 1.7 Time-Harmonic Fields 29 THEOREMS AND PRINCIPLES_________________73 1.7.1 Time-Harmonic Fields 29 1.7.2 Fourier Transforms 30 3.1 Uniqueness Theorem 73 1.7.3 Complex Power 32 3.2 Image Theory 75 1.7.4 Complex Permittivity and 3.2.1 Basic Image Theory 76 Permeability 36 3.2.2 Half-Space Field-Source Notes 37 Relations 80 References 37 3.3 Reciprocity Theorems 82 Problems 37 3.3.1 General Reciprocity Theorem 82 3.3.2 Lorentz Reciprocity Theorem 83 CHAPTER 2 ELECTROMAGNETIC RADIATION 333 Rayleigh-Carson Reciprocity IN FREE SPACE 43 Theorem 83 3.4 Equivalence Principles 85 2.1 Scalar and Vector Potentials 43 3.4.1 Surface Equivalence Principle 85 3.4.2 Application to Scattering by a CHAPTER 5 FIELDS AND WAVES IN Conducting Object 87 RECTANGULAR COORDINATES ___________152 5.1 Uniform Waveguides 152 5.1.1 General Analysis 152 5.1.2 General Characteristics 156 5.1.3 Uniform Rectangular Attenuation Constant 167 5.2 Uniform Cavities 170 3.4.3 Application to Scattering by a Dielectric Object 90 3.4.4 Volume Equivalence Principle 92 3.5 Duality Principle 94 3.6 Aperture Radiation and Scattering 95 Waveguide 160 3.6.1 Equivalent Problems 96 5.1.4 Losses in Waveguides and 3.6.2 Babinet s Principle 99 3.6.3 Complementary Antennas 101 References 102 5.2.1 General Theory 171 Problems 103 5.2.2 Rectangular Cavity 173 CHAPTER 4 TRANSM1SSION LINES AND 523 Material and Geometry PLANE WAVES 107 Perturbations 175 -------------------------------------------------------------------- 5.3 Partially Filled Waveguides and Dielectric 4.1 Transmission Line Theory 107 Slab Waveguides 178 4.1.1 Governing Differential Equations 5.3.1 General Theory 178 and General Solutions 107 5.3.2 Partially Filled Rectangular 4.1.2 Reflection and Transmission 110 Waveguide 180 4.1.3 Green s Function and 5.3.3 Dielectric Slab Waveguide on a Eigenfunction Expansion 111 Ground Plane 183 4.2 Wave Equations and General 5.4 Field Excitation in Waveguides 187 Solutions 115 5.4.1 Excitation by Planar Surface 4.2.1 Wave Equations and Solution by Currents 187 Separation of Variables 116 5.4.2 Excitation by General Volumetric 4.2.2 Characteristics of a Plane Currents 189 Wave 117 5.5 Fields in Planar Layered Media 191 4.2.3 Wave Velocities and 5.5.1 Spectral Green s Function and Attenuation 119 Sommerfeld Identity 191 4.2.4 Linear, Circular, and Elliptical 5.5.2 Vertical Electric Dipole above a Polarizations 121 Layered Medium 192 4.2.5 Wave Propagation in 5.5.3 Horizontal Electric Dipole above Metamaterials 124 a Layered Medium 194 4.3 Plane Waves Generated by A Current 5.5.4 Dipoles on a Grounded Dielectric Sheet 125 Slab 196 4.4 Reflection and Transmission 127 Note 197 4.4.1 Reflection and Transmission at References 198 Normal Incidence 127 Problems 198 4.4.2 Reflection and Transmission at Oblique Incidence 129 CHAPTER 6 FIELDS AND WAVES IN 4.4.3 Total Transmission and Total Reflection 132 CYLINDRICAL COORDINATES 200 4.4.4 Transmission into a Left-Handed 6.1 Solution of Wave Equation 200 Medium 135 6.1.1 Solution by Separation of 4.4.5 Plane Waves versus Transmission Variables 200 Lines 137 6.1.2 Cylindrical Wave 4.5 Plane Waves in Anisotropic and Bi-Isotropic Functions 203 Media 137 6.2 Circular and Coaxial Waveguides and 4.5.1 Plane Waves in Uniaxial Media 137 Cavities 204 4.5.2 Plane Waves in Gyrotropic 6.2.1 Circular Waveguide 205 Media 142 6.2.2 Coaxial Waveguide 208 4.5.3 Plane Waves in Chiral Media 145 6.2.3 Cylindrical Cavity 212 References 147 6.3 Circular Dielectric Waveguide 213 Problems 147 6.3.1 Analysis of Hybrid Modes 214 6.3.2 Characteristics of Hybrid 7.5.4 Radiation in the Presence of a Modes 217 Conducting Cone 288 6.4 Wave Transformation and Scattering References 291 Analysis 222 Problems 292 6.4.1 Wave Transformation 223 6.4.2 Scattering by a Circular Conducting PART II ELECTROMAGNETIC Cylinder 224 FIELD COMPUTATION 6.4.3 Scattering by a Circular Dielectric Cylinder 227 CHAPTER 8 THE FINITE DIFFERENCE 6.4.4 Scattering by a Circular Multilayer mfthdd 297 Dielectric Cylinder 230 6.5 Radiation by Infinitely Long Currents 234 8.1 Finite Differencing Formulas 298 6.5.1 Line Current Radiation in Free 8.2 One-Dimensional Analysis 300 Space 234 8.2.1 Solution of the Diffusion 6.5.2 Radiation by a Cylindrical Surface Equation 300 Current 236 8.2.2 Solution of the Wave Equation 302 6.5.3 Radiation in the Presence of 8.2.3 Stability Analysis 302 a Circular Conducting 8.2.4 Numerical Dispersion Analysis 305 Cylinder 238 8.3 Two-Dimensional Analysis 306 6.5.4 Radiation in the Presence of a 8.3.1 Analysis in the Time Domain 306 Conducting Wedge 241 8.3.2 Analysis in the Frequency 6.5.5 Radiation by a Finite Current 243 Domain 308 References 245 8.4 Yee s FDTD Scheme 309 Problems 245 8.4.1 Two-Dimensional Analysis 309 8.4.2 Three-Dimensional Analysis 311 CHAPTER 7 FIELDS AND WAVES IN g.5 Absorbing Boundary Conditions 314 SPHERICAL COORDINATES 248 8.5.i One-Dimensional ABC 314 7.1 Solution of Wave Equation 248 7.1.1 Solution by Separation of Variables 248 7.1.2 Spherical Wave Functions 251 7.1.3 TE, and TM, Modes 253 8.6.2 Auxihary Differential Equation 7.2 Spherical Cavity 255 . 8.5.2 Two-Dimensional ABCs 316 8.5.3 Perfectly Matched Layers 318 8.6 Modeling of Dispersive Media 329 8.6.1 Recursive Convolution Approach 329 7.3 Biconical Antenna 259 Approach 331 8.7 Wave Excitation and Far-Field 7.3.1 Infinitely Long Model 259 Calculation 333 7.3.2 Finite Biconical Antenna 262 8.7.1 Modeling of Wave Excitation 334 7.4 Wave Transformation 8.7.2 Near-to-Far Field and Scattering Analysis 264 Transformation 337 7.4.1 Wave Transformation 264 7.4.2 Expansion of a Plane Wave 266 References 339 7.4.3 Scattering by a Conducting problems m Sphere 269 7.4.4 Scattering by a Dielectric CHAPTER 9 THE FINITE ELEMENT Sphere 274 METHOD 342 7.4.5 Scattering by a Multilayer Dielectric ----------------------------------------------------------------- Sphere 276 9.1 Introduction to the Finite Element 7.5 Addition Theorem and Radiation Method 343 Analysis 281 9.1.1 The General Principle 343 7.5.1 Addition Theorem for 9.1.2 One-Dimensional Example 344 Spherical Wave Functions 281 9.2 Finite Element Analysis of Scalar 7.5.2 Radiation of a Spherical Surface Fields 347 Current 283 9.2.1 The Boundary-Value Problem 347 7.5.3 Radiation in the Presence of a 9.2.2 Finite Element Formulation 348 Sphere 286 9.2.3 Application Examples 354 CHAPTER 10 THE METHOD OF MOMENTS 399 9.3 Finite Element Analysis of Vector 10.5 Analysis of Microstrip Antennas and Fields 359 Circuits 443 9.3.1 The Boundary-Value Problem 359 10.5.1 Formulation of Integral 9.3.2 Finite Element Formulation 360 Equations 443 9.3.3 Application Examples 364 10.5.2 The Moment-Method Solution 446 9.4 Finite Element Analysis in the Time 10.5.3 Evaluation of Green s Domain 372 Functions 446 9.4.1 The Boundary-Value Problem 373 10.5.4 Far-Field Calculation and 9.4.2 Finite Element Formulation 374 Application Examples 451 9.4.3 Application Examples 378 10.6 The Moment Method in the Time 9.5 Absorbing Boundary Conditions 379 Domain 452 9.5.1 Two-Dimensional ABCs 380 10.6.1 Time-Domain Integral 9.5.2 Three-Dimensional ABCs 383 Equations 453 9.5.3 Perfectly Matched Layers 386 10.6.2 Marching-On-in-Time Solution 454 9.6 Some Numerical Aspects 390 10.7 Summary 458 9.6.1 Mesh Generation 391 References 458 9.6.2 Matrix Solvers 391 Problems 460 9.6.3 Higher-Order Elements 392 9.6.4 Curvilinear Elements 393 9.6.5 Adaptive Finite Element CHAPTER 11 FASTALGORITHMS AND Analysis 393 HYBRID TECHNIQUES 463 9.7 Summary 393 11.1 Introduction to Fast Algonthms 463 Reterences 394 11.2 Conjugale Gradient-FFT Method 465 Problems 395 11.2.1 Scattering by a Conducting Strip or Wire 466 11.2.2 Scattering by a Conducting 10.1 Introduction to the Method of Moments 399 Plate 466 10.2 Two-Dimensional Analysis 404 11.2.3 Scattering by a Dielectric 10.2.1 Formulation of Integral Object 472 Equations 404 11.3 Adaptive Integral Method 478 10.2.2 Scattering by a Conducting 11.3.1 Planar Structures 478 Cylinder 407 11.3.2 Three-Dimensional Objects 482 10.2.3 Scattering by a Conducting 11.4 Fast Multipole Method 487 Strip 411 11.4.1 Two-Dimensional Analysis 487 10.2.4 Scattering by a Homogeneous 11.4.2 Three-Dimensional Analysis 492 Dielectric Cylinder 415 11.4.3 Multilevel Fast Multipole 10.3 Three-Dimensional Analysis 416 Algorithm 495 10.3.1 Formulation of Integral 11.5 Adaptive Cross-Approximation Equations 416 Algorithm 500 10.3.2 Scattering and Radiation by 11.5.1 Low-Rank Matrix 500 a Conducting Wire 421 11.5.2 Adaptive Cross-Approximation 502 10.3.3 Scattering by a Conducting 11.5.3 Application to the Moment-Method Body 425 Solution 504 10.3.4 Scattering by a Homogeneous 11.6 Introduction to Hybrid Techniques 508 Dielectric Body 430 11.7 Hybrid Finite Difference-Finite Element 10.3.5 Scattering by an Method 509 Inhomogeneous Dielectric 11.7.1 Relation between FETD and Body 433 FDTD 510 10.4 Analysis of Periodic Structures 436 11.7.2 Hybridization of FETD and 10.4.1 Scattering by a Planar FDTD 512 Periodic Conducting Patch 11.7.3 Application Example 514 Array 436 11.8 Hybrid Finite Element-Boundary Integral 10.4.2 Scattering by a Discrete Body-of- Method 515 Revolution Object 441 11.8.1 Traditional Formulation 517 11.8.2 Symmetrie Formulation 520 12.1.4 Time-Domain Simulation 11.8.3 Numerical Examples 523 Methods 538 11.9 Summary 526 12.1.5 Hybrid Techniques 540 Notes 527 12.2 Applications of Computational References 527 Electromagnetics 540 Problems 531 12.3 Challenges in Computational Electromagnetics 551 CHAPTER 12 CONCLUDING REMARKS ON References 552 COMPUTATIONAL ELECTROMAGNETICS 533 12.1 Overview of Computational APPENDIX 559 Electromagnetics 533 ---------------------------------------------------------------------------- 12.1.1 Frequency-versus Time-Domain Vector Identities 559 Analysis 533 Integral Theorems 559 12.1.2 High-Frequency Asymptotic Coordinate Transformation 560 Techniques 534 12.1.3 First-Principle Numerical Methods 536 INDEX 561
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spelling	Jin, Jian-Ming 1962- Verfasser (DE-588)137256159 aut Theory and computation of electromagnetic fields Jian-Ming Jin [Piscataway, NJ] [u.a.] IEEE Press [u.a.] 2010 XV, 572 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mathematik Angewandte Mathematik (DE-588)4142443-8 gnd rswk-swf Elektromagnetisches Feld (DE-588)4014305-3 gnd rswk-swf Computersimulation (DE-588)4148259-1 gnd rswk-swf Electromagnetic fields / Mathematics / Textbooks Elektromagnetisches Feld (DE-588)4014305-3 s Computersimulation (DE-588)4148259-1 s DE-604 Angewandte Mathematik (DE-588)4142443-8 s 1\p DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021140415&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
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subject_GND	(DE-588)4142443-8 (DE-588)4014305-3 (DE-588)4148259-1
title	Theory and computation of electromagnetic fields
title_auth	Theory and computation of electromagnetic fields
title_exact_search	Theory and computation of electromagnetic fields
title_full	Theory and computation of electromagnetic fields Jian-Ming Jin
title_fullStr	Theory and computation of electromagnetic fields Jian-Ming Jin
title_full_unstemmed	Theory and computation of electromagnetic fields Jian-Ming Jin
title_short	Theory and computation of electromagnetic fields
title_sort	theory and computation of electromagnetic fields
topic	Mathematik Angewandte Mathematik (DE-588)4142443-8 gnd Elektromagnetisches Feld (DE-588)4014305-3 gnd Computersimulation (DE-588)4148259-1 gnd
topic_facet	Mathematik Angewandte Mathematik Elektromagnetisches Feld Computersimulation
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