Electromagnetic wave propagation, radiation, and scattering: from fundamentals to applications
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Piscataway, NJ
IEEE Press
[2017]
Hoboken, New Jersey Wiley [2017] |
| Ausgabe: | Second edition |
| Schriftenreihe: | IEEE Press series on electromagnetic wave theory
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Beschreibung & Leseprobe Inhaltsverzeichnis |
| Beschreibung: | xxvii, 938 Seiten Diagramme |
| ISBN: | 9781118098813 |
Internformat
MARC
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| 100 | 1 | |a Ishimaru, Akira |d 1928- |e Verfasser |0 (DE-588)1023755874 |4 aut | |
| 245 | 1 | 0 | |a Electromagnetic wave propagation, radiation, and scattering |b from fundamentals to applications |c Akira Ishimaru (University of Washington, Seattle, WA, USA) |
| 250 | |a Second edition | ||
| 264 | 1 | |a Piscataway, NJ |b IEEE Press |c [2017] | |
| 264 | 1 | |a Hoboken, New Jersey |b Wiley |c [2017] | |
| 264 | 4 | |c © 2017 | |
| 300 | |a xxvii, 938 Seiten |b Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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Datensatz im Suchindex
| _version_ | 1804177915491909632 |
|---|---|
| adam_text | ELECTROMAGNETIC
WAVE PROPAGATION
RADIATION, AND
SCATTERING
CONTENTS
ABOUT THE AUTHOR xix
PREFACE xxi
PREFACE TO THE FIRST EDITION xxv
ACKNOWLEDGMENTS xxvii
PARTI FUNDAMENTALS 1
1 INTRODUCTION 3
2 FUNDAMENTAL FIELD EQUATIONS 7
2 1 Maxwell’s Equations / 7
2 2 Time-Harmonic Case / 10
2 3 Constitutive Relations /II
2 4 Boundary Conditions / 15
2 5 Energy Relations and Poynting’s Theorem / 18
2 6 Vector and Scalar Potentials / 22
2 7 Electric Hertz Vector / 24
2 8 Duality Principle and Symmetry of Maxwell’s Equations / 25
2 9 Magnetic Hertz Vector / 26
2 10 Uniqueness Theorem / 27
vii
viii
CONTENTS
2 11 Reciprocity Theorem / 28
2 12 Acoustic Waves / 30
Problems / 33
3 WAVES IN INHOMOGENEOUS AND LAYERED MEDIA 35
3 1 Wave Equation for a Time-Harmonic Case / 35
3 2 Time-Harmonic Plane-Wave Propagation in Homogeneous
Media / 36
3 3 Polarization / 37
3 4 Plane-Wave Incidence on a Plane Boundary: Perpendicular
Polarization (s Polarization) / 39
3 5 Electric Field Parallel to a Plane of Incidence: Parallel
Polarization (p Polarization) / 43
3 6 Fresnel Formula, Brewster’s Angle, and Total Reflection / 44
3 7 Waves in Layered Media / 47
3 8 Acoustic Reflection and Transmission from a Boundary / 50
3 9 Complex Waves / 51
3 10 Trapped Surface Wave (Slow Wave) and Leaky Wave / 54
3 11 Surface Waves Along a Dielectric Slab / 57
3 12 Zenneck Waves and Plasmons / 63
3 13 Waves in Inhomogeneous Media / 66
3 14 WKB Method/ 68
3 15 Bremmer Series / 72
3 16 WKB Solution for the Turning Point / 76
3 17 Trapped Surface-Wave Modes in an Inhomogeneous Slab / 77
3 18 Medium With Prescribed Profile / 80
Problems / 81
4 WAVEGUIDES AND CAVITIES 85
4 1 Uniform Electromagnetic Waveguides / 85
4 2 TM Modes or E Modes / 86
4 3 TE Modes or H Modes / 87
4 4 Eigenfunctions and Eigenvalues / 89
4 5 General Properties of Eigenfunctions for Closed Regions / 91
4 6 k-ß Diagram and Phase and Group Velocities / 95
4 7 Rectangular Waveguides / 98
4 8 Cylindrical Waveguides / 100
4 9 TEM Modes / 104
CONTENTS
ix
4 10 Dispersion of a Pulse in a Waveguide / 106
4 11 Step-Index Optical Fibers / 109
4 12 Dispersion of Graded-Index Fibers / 116
4 13 Radial and Azimuthal Waveguides / 117
4 14 Cavity Resonators / 120
4 15 Waves in Spherical Structures / 123
4 16 Spherical Waveguides and Cavities / 128
Problems / 133
5 GREEN’S FUNCTIONS 137
5 1 Electric and Magnetic Dipoles in Homogeneous Media / 137
5 2 Electromagnetic Fields Excited by an Electric Dipole in a
Homogeneous Medium / 139
5 3 Electromagnetic Fields Excited by a Magnetic Dipole in a
Homogeneous Medium / 144
5 4 Scalar Green’s Function for Closed Regions and Expansion of
Green’s Function in a Series of Eigenfunctions / 145
5 5 Green’s Function in Terms of Solutions of the Homogeneous
Equation / 150
5 6 Fourier Transform Method / 155
5 7 Excitation of a Rectangular Waveguide / 157
5 8 Excitation of a Conducting Cylinder / 159
5 9 Excitation of a Conducting Sphere / 163
Problems / 166
6 RADIATION FROM APERTURES AND BEAM WAVES 169
6 1 Huygens’ Principle and Extinction Theorem / 169
6 2 Fields Due to the Surface Field Distribution / 173
6 3 Kirchhoff Approximation / 176
6 4 Fresnel and Fraunhofer Diffraction / 178
6 5 Fourier Transform (Spectral) Representation / 182
6 6 Beam Waves / 183
6 7 Goos-Hanchen Effect / 187
6 8 Higher-Order Beam-Wave Modes / 191
6 9 Vector Green’s Theorem, Stratton-Chu Formula, and Franz
Formula / 194
6 10 Equivalence Theorem / 197
6 11 Kirchhoff Approximation for Electromagnetic Waves / 198
Problems / 199
X
CONTENTS
7 PERIODIC STRUCTURES AND COUPLED-MODE THEORY
7 1 Floquet’s Theorem / 202
7 2 Guided Waves Along Periodic Structures / 203
7 3 Periodic Layers / 209
7 4 Plane Wave Incidence on a Periodic Structure / 213
7 5 Scattering from Periodic Surfaces Based on the Rayleigh
Hypothesis / 219
7 6 Coupled-Mode Theory / 224
Problems / 229
8 DISPERSION AND ANISOTROPIC MEDIA
8 1 Dielectric Material and Polarizability / 233
8 2 Dispersion of Dielectric Material / 235
8 3 Dispersion of Conductor and Isotropic Plasma / 237
8 4 Debye Relaxation Equation and Dielectric Constant
of Water / 240
8 5 Interfacial Polarization / 240
8 6 Mixing Formula / 241
8 7 Dielectric Constant and Permeability for Anisotropic
Media / 244
8 8 Magnetoionic Theory for Anisotropic Plasma / 244
8 9 Plane-Wave Propagation in Anisotropic Media / 247
8 10 Plane-Wave Propagation in Magnetoplasma / 248
8 11 Propagation Along the DC Magnetic Field / 249
8 12 Faraday Rotation / 253
8 13 Propagation Perpendicular to the DC Magnetic Field / 255
8 14 The Height of the Ionosphere / 256
8 15 Group Velocity in Anisotropic Medium / 257
8 16 Warm Plasma / 259
8 17 Wave Equations for Warm Plasma / 261
8 18 Ferrite and the Derivation of Its Permeability Tensor / 263
8 19 Plane-Wave Propagation in Ferrite / 266
8 20 Microwave Devices Using Ferrites / 267
8 21 Lorentz Reciprocity Theorem for Anisotropic Media / 270
8 22 Bi-Anisotropic Mödia and Chiral Media / 272
8 23 Superconductors, London Equation, and the Meissner
Effects / 276
8 24 Two-Fluid Model of Superconductors at High Frequencies / 278
Problems / 280
CONTENTS
XI
9 ANTENNAS, APERTURES, AND ARRAYS 285
9 1 Antenna Fundamentals / 285
9 2 Radiation Fields of Given Electric and Magnetic Current
Distributions / 289
9 3 Radiation Fields of Dipoles, Slots, and Loops / 292
9 4 Antenna Arrays with Equal and Unequal Spacings / 296
9 5 Radiation Fields from a Given Aperture Field Distribution / 301
9 6 Radiation from Microstrip Antennas / 305
9 7 Self- and Mutual Impedances of Wire Antennas with Given
Current Distributions / 308
9 8 Current Distribution of a Wire Antenna / 313
Problems / 314
10 SCATTERING OF WAVES BY CONDUCTING AND
DIELECTRIC OBJECTS 317
10 1 Cross Sections and Scattering Amplitude / 318
10 2 Radar Equations / 321
10 3 General Properties of Cross Sections / 322
10 4 Integral Representations of Scattering Amplitude and
Absorption Cross Sections / 325
10 5 Rayleigh Scattering for a Spherical Object / 328
10 6 Rayleigh Scattering for a Small Ellipsoidal Object / 330
10 7 Rayleigh-Debye Scattering (Born Approximation) / 334
10 8 Elliptic Polarization and Stokes Parameters / 338
10 9 Partial Polarization and Natural Light / 341
10 10 Scattering Amplitude Functions/j, ,/12,/2i , and/22 and the
Stokes Matrix / 342
10 11 Acoustic Scattering / 344
10 12 Scattering Cross Section of a Conducting Body / 346
10 13 Physical Optics Approximation / 347
10 14 Moment Method: Computer Applications / 350
Problems / 354
11 WAVES IN CYLINDRICAL STRUCTURES, SPHERES,
AND WEDGES 357
11 1 Plane Wave Incident on a Conducting Cylinder / 357
11 2 Plane Wave Incident on a Dielectric Cylinder / 361
11 3 Axial Dipole Near a Conducting Cylinder / 364
11 4 Radiation Field / 366
xii
CONTENTS
11 5 Saddle-Point Technique / 368
11 6 Radiation from a Dipole and Parseval’s Theorem / 371
11 7 Large Cylinders and the Watson Transform / 373
11 8 Residue Series Representation and Creeping Waves / 376
11 9 Poisson’s Sum Formula, Geometric Optical Region, and Fock
Representation / 379
11 10 Mie Scattering by a Dielectric Sphere / 382
11 11 Axial Dipole in the Vicinity of a Conducting Wedge / 390
11 12 Line Source and Plane Wave Incident on a Wedge / 392
11 13 Half-Plane Excited by a Plane Wave / 394
Problems / 395
12 SCATTERING BY COMPLEX OBJECTS 401
12 1 Scalar Surface Integral Equations for Soft and Hard
Surfaces / 402
12 2 Scalar Surface Integral Equations for a Penetrable
Homogeneous Body / 404
12 3 EFIE and MFIE / 406
12 4 T-Matrix Method (Extended Boundary Condition Method) / 408
12 5 Symmetry and Unitarity of the T-Matrix and the Scattering
Matrix / 414
12 6 T-Matrix Solution for Scattering from Periodic Sinusoidal
Surfaces / 416
12 7 Volume Integral Equations for Inhomogeneous Bodies: TM
Case / 418
12 8 Volume Integral Equations for Inhomogeneous Bodies: TE
Case / 423
12 9 Three-Dimensional Dielectric Bodies / 426
12 10 Electromagnetic Aperture Integral Equations for a Conducting
Screen / 427
12 11 Small Apertures / 430
12 12 Babinet’s Principle and Slot and Wire Antennas / 433
12 13 Electromagnetic Diffraction by Slits and Ribbons / 439
12 14 Related Problems / 441
Problems / 441
13 GEOMETRIC THEORY OF DIFFRACTION AND LOW-
FREQUENCY TECHNIQUES 443
13 1 Geometric Theory of Diffraction / 444
13 2 Diffraction by a Slit for Dirichlet’s Problem / 447
CONTENTS
xiii
13 3 Diffraction by a Slit for Neumann’s Problem and Slope
Diffraction / 452
13 4 Uniform Geometric Theory of Diffraction for an Edge / 455
13 5 Edge Diffraction for a Point Source / 457
13 6 Wedge Diffraction for a Point Source / 461
13 7 Slope Diffraction and Grazing Incidence / 463
13 8 Curved Wedge / 463
13 9 Other High-Frequency Techniques / 465
13 10 Vertex and Surface Diffraction / 466
13 11 Low-Frequency Scattering / 467
Problems / 470
14 PLANAR LAYERS, STRIP LINES, PATCHES,
AND APERTURES 473
14 1 Excitation of Waves in a Dielectric Slab / 473
14 2 Excitation of Waves in a Vertically Inhomogeneous Medium / 481
14 3 Strip Lines / 485
14 4 Waves Excited by Electric and Magnetic Currents
Perpendicular to Dielectric Layers / 492
14 5 Waves Excited by Transverse Electric and Magnetic Currents
in Dielectric Layers / 496
14 6 Strip Lines Embedded in Dielectric Layers / 500
14 7 Periodic Patches and Apertures Embedded in Dielectric
Layers / 502
Problems / 506
15 RADIATION FROM A DIPOLE ON THE CONDUCTING EARTH 509
15 1 Sommerfeld Dipole Problem / 509
15 2 Vertical Electric Dipole Located Above the Earth / 510
15 3 Reflected Waves in Air / 514
15 4 Radiation Field: Saddle-Point Technique / 517
15 5 Field Along the Surface and the Singularities of the
Integrand / 519
15 6 Sommerfeld Pole and Zenneck Wave / 521
15 7 Solution to the Sommerfeld Problem / 524
15 8 Lateral Waves: Branch Cut Integration / 528
15 9 Refracted Wave / 536
15 10 Radiation from a Horizontal Dipole / 538
15 11 Radiation in Layered Media / 541
XIV
CONTENTS
15 12 Geometric Optical Representation / 545
15 13 Mode and Lateral Wave Representation / 549
Problems / 550
PART II APPLICATIONS
553
16 INVERSE SCATTERING
555
16 1 Radon Transform and Tomography / 555
16 2 Alternative Inverse Radon Transform in Terms of the Hilbert
Transform / 559
16 3 Diffraction Tomography / 561
16 4 Physical Optics Inverse Scattering / 567
16 5 Holographic Inverse Source Problem / 570
16 6 Inverse Problems and Abel’s Integral Equation Applied to
Probing of the Ionosphere / 572
16 7 Radar Polarimetry and Radar Equation / 575
16 8 Optimization of Polarization / 578
16 9 Stokes Vector Radar Equation and Polarization Signature / 580
16 10 Measurement of Stokes Parameter / 582
Problems / 584
17 1 Radiometry / 587
17 2 Brightness and Flux Density / 588
17 3 Blackbody Radiation and Antenna Temperature / 589
17 4 Equation of Radiative Transfer / 592
17 5 Scattering Cross Sections and Absorptivity and Emissivity of a
Surface / 594
17 6 System Temperature / 598
17 7 Minimum Detectable Temperature / 600
17 8 Radar Range Equation / 601
17 9 Aperture Illumination and Brightness Distributions / 602
17 10 Two-Antenna Interferometer / 604
Problems / 607
18 STOCHASTIC WAVE THEORIES 611
18 1 Stochastic Wave Equations and Statistical Wave Theories / 612
18 2 Scattering in Troposphere, Ionosphere, and Atmospheric
17 RADIOMETRY, NOISE TEMPERATURE, AND
INTERFEROMETRY
587
Optics / 612
CONTENTS
XV
18 3 Turbid Medium, Radiative Transfer, and Reciprocity / 612
18 4 Stochastic Sommerfeld Problem, Seismic Coda, and
Subsurface Imaging / 613
18 5 Stochastic Green’s Function and Stochastic Boundary
Problems / 615
18 6 Channel Capacity of Communication Systems with Random
Media Mutual Coherence Function / 619
18 7 Integration of Statistical Waves with Other Disciplines / 621
18 8 Some Accounts of Historical Development of Statistical Wave
Theories / 622
19 GEOPHYSICAL REMOTE SENSING AND IMAGING 625
19 1 Polarimetrie Radar / 626
19 2 Scattering Models for Geophysical Medium and
Decomposition Theorem / 630
19 3 Polarimetrie Weather Radar / 632
19 4 Nonspherical Raindrops and Differential
Reflectivity / 634
19 5 Propagation Constant in Randomly Distributed
Nonspherical Particles / 636
19 6 Vector Radiative Transfer Theory / 638
19 7 Space-Time Radiative Transfer / 639
19 8 Wigner Distribution Function and Specific Intensity / 641
19 9 Stokes Vector Emissivity from Passive Surface and Ocean
Wind Directions / 644
19 10 Van Cittert-Zernike Theorem Applied to Aperture Synthesis
Radiometers Including Antenna Temperature / 646
19 11 Ionospheric Effects on SAR Image / 650
20 BIOMEDICAL EM, OPTICS, AND ULTRASOUND 657
20 1 Bioelectromagnetics / 658
20 2 Bio-EM and Heat Diffusion in Tissues / 659
20 3 Bio-Optics, Optical Absorption and Scattering
in Blood / 663
20 4 Optical Diffusion in Tissues / 666
20 5 Photon Density Waves / 670
20 6 Optical Coherence Tomography and Low Coherence
Interferometry / 672
20 7 Ultrasound Scattering and Imaging of Tissues / 677
20 8 Ultrasound in Blood / 680
XVI CONTENTS
21 WAVES IN METAMATERIALS AND PLASMON 685
21 1 Refractive Index n and p-e Diagram / 686
21 2 Plane Waves, Energy Relations, and Group Velocity / 688
21 3 Split-Ring Resonators / 689
21 4 Generalized Constitutive Relations for Metamaterials / 692
21 5 Space-Time Wave Packet Incident on Dispersive Metamaterial
and Negative Refraction / 697
21 6 Backward Lateral Waves and Backward Surface Waves / 701
21 7 Negative Goos-Hanchen Shift / 704
21 8 Perfect Lens, Subwavelength Focusing, and Evanescent
Waves / 708
21 9 Brewster’s Angle in NIM and Acoustic Brewster’s Angle / 712
21 10 Transformation Electromagnetics and Invisible Cloak / 716
21 11 Surface Flattening Coordinate Transform / 720
22 TIME-REVERSAL IMAGING 723
22 1 Time-Reversal Mirror in Free Space / 724
22 2 Super Resolution of Time-Reversed Pulse in Multiple
Scattering Medium / 729
22 3 Time-Reversal Imaging of Single and Multiple Targets and
DORT (Decomposition of Time-Reversal Operator) / 731
22 4 Time-Reversal Imaging of Targets in Free Space / 735
22 5 Time-Reversal Imaging and SVD (Singular Value
Decomposition) / 739
22 6 Time-Reversal Imaging with MUSIC (Multiple Signal
Classification) / 739
22 7 Optimum Power Transfer by Time-Reversal Technique / 740
23 SCATTERING BY TURBULENCE, PARTICLES, DIFFUSE
MEDIUM, AND ROUGH SURFACES 743
23 1 Scattering by Atmospheric and Ionospheric Turbulence / 743
23 2 Scattering Cross Section per Unit Volume of Turbulence / 746
23 3 Scattering for a Narrow Beam Case / 748
23 4 Scattering Cross Section Per Unit Volume of Rain and Fog / 750
23 5 Gaussian and Henyey-Greenstein Scattering Formulas / 751
23 6 Scattering Cross Section Per Unit Volume of Turbulence,
Particles, and Biological Media / 752
23 7 Line-of-Sight Propagation, Born and Rytov Approximation / 753
CONTENTS
xvii
23 8 Modified Rytov Solution with Power Conservation, and
Mutual Coherence Function / 754
23 9 MCF for Line-of-Sight Wave Propagation in Turbulence / 756
23 10 Correlation Distance and Angular Spectrum / 759
23 11 Coherence Time and Spectral Broadening / 760
23 12 Pulse Propagation, Coherence Bandwidth, and Pulse
Broadening / 761
23 13 Weak and Strong Fluctuations and Scintillation Index / 762
23 14 Rough Surface Scattering, Perturbation Solution, Transition
Operator / 765
23 15 Scattering by Rough Interfaces Between Two Media / 771
23 16 Kirchhoff Approximation of Rough Surface Scattering / 774
23 17 Frequency and Angular Correlation of Scattered Waves from
Rough Surfaces and Memory Effects / 779
24 COHERENCE IN MULTIPLE SCATTERING AND DIAGRAM
METHOD 785
24 1 Enhanced Radar Cross Section in Turbulence / 786
24 2 Enhanced Backscattering from Rough Surfaces / 787
24 3 Enhanced Backscattering from Particles and Photon
Localization / 789
24 4 Multiple Scattering Formulations, the Dyson and
Bethe-Salpeter Equations / 791
24 5 First-Order Smoothing Approximation / 793
24 6 First- and Second-Order Scattering and Backscattering
Enhancement / 794
24 7 Memory Effects / 795
25 SOLITONS AND OPTICAL FIBERS 797
25 1 History / 797
25 2 KDV (Korteweg-De Vries) Equation for Shallow Water / 799
25 3 Optical Solitons in Fibers / 802
26 POROUS MEDIA, PERMITTIVITY, FLUID PERMEABILITY OF
SHALES AND SEISMIC CODA 807
26 1 Porous Medium and Shale, Superfracking / 808
26 2 Permittivity and Conductivity of Porous Media, Archie’s Law,
and Percolation and Fractal / 809
Fluid Permeability and Darcy’s Law / 811
26 3
xviii CONTENTS
26 4
26 5
26 6
26 7
26 8
Seismic Coda, P-Wave, S-Wave, and Rayleigh Surface
Wave / 812
Earthquake Magnitude Scales / 813
Waveform Envelope Broadening and Coda / 814
Coda in Heterogeneous Earth Excited by an Impulse Source / 815
S-wave Coda and Rayleigh Surface Wave / 819
APPENDICES
REFERENCES
INDEX
821
913
|
| any_adam_object | 1 |
| author | Ishimaru, Akira 1928- |
| author_GND | (DE-588)1023755874 |
| author_facet | Ishimaru, Akira 1928- |
| author_role | aut |
| author_sort | Ishimaru, Akira 1928- |
| author_variant | a i ai |
| building | Verbundindex |
| bvnumber | BV044551190 |
| classification_rvk | UH 3000 |
| ctrlnum | (OCoLC)1011370428 (DE-599)GBV897210182 |
| discipline | Physik |
| edition | Second edition |
| format | Book |
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| id | DE-604.BV044551190 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:55:40Z |
| institution | BVB |
| isbn | 9781118098813 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029950044 |
| oclc_num | 1011370428 |
| open_access_boolean | |
| owner | DE-11 |
| owner_facet | DE-11 |
| physical | xxvii, 938 Seiten Diagramme |
| publishDate | 2017 |
| publishDateSearch | 2017 |
| publishDateSort | 2017 |
| publisher | IEEE Press Wiley |
| record_format | marc |
| series2 | IEEE Press series on electromagnetic wave theory |
| spelling | Ishimaru, Akira 1928- Verfasser (DE-588)1023755874 aut Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications Akira Ishimaru (University of Washington, Seattle, WA, USA) Second edition Piscataway, NJ IEEE Press [2017] Hoboken, New Jersey Wiley [2017] © 2017 xxvii, 938 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier IEEE Press series on electromagnetic wave theory Elektromagnetische Welle (DE-588)4014301-6 gnd rswk-swf Elektromagnetische Welle (DE-588)4014301-6 s 1\p DE-604 DE-601 application/pdf http://www.gbv.de/dms/tib-ub-hannover/897210182.pdf Inhaltsverzeichnis http://eu.wiley.com/WileyCDA/WileyTitle/productCd-1118098811.html Beschreibung & Leseprobe HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029950044&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 |
| spellingShingle | Ishimaru, Akira 1928- Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications Elektromagnetische Welle (DE-588)4014301-6 gnd |
| subject_GND | (DE-588)4014301-6 |
| title | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications |
| title_auth | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications |
| title_exact_search | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications |
| title_full | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications Akira Ishimaru (University of Washington, Seattle, WA, USA) |
| title_fullStr | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications Akira Ishimaru (University of Washington, Seattle, WA, USA) |
| title_full_unstemmed | Electromagnetic wave propagation, radiation, and scattering from fundamentals to applications Akira Ishimaru (University of Washington, Seattle, WA, USA) |
| title_short | Electromagnetic wave propagation, radiation, and scattering |
| title_sort | electromagnetic wave propagation radiation and scattering from fundamentals to applications |
| title_sub | from fundamentals to applications |
| topic | Elektromagnetische Welle (DE-588)4014301-6 gnd |
| topic_facet | Elektromagnetische Welle |
| url | http://www.gbv.de/dms/tib-ub-hannover/897210182.pdf http://eu.wiley.com/WileyCDA/WileyTitle/productCd-1118098811.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029950044&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT ishimaruakira electromagneticwavepropagationradiationandscatteringfromfundamentalstoapplications |
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