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100   $a20040923d2006      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aHigh-frequency electrodynamics$b[electronic resource] /$fBoris Z. Katsenelenbaum
210   $aWeinheim $cWiley-VCH ;$a[Chichester $cJohn Wiley, distributor]$dc2006
215   $a1 online resource (345 p.)
300   $aDescription based upon print version of record.
311   $a3-527-40529-1 
320   $aIncludes bibliographical references and index.
327   $aHigh-frequency Electrodynamics; Contents; Preface; 1 The Maxwell Equations; 1.1 Complex amplitudes; 1.1.1 Harmonic (monochromatic) oscillations; 1.1.2 Complex amplitudes; 1.1.3 The period-average product of two harmonic functions; 1.2 The Maxwell equations; 1.2.1 The conduction current and the extrinsic current; 1.2.2 The Maxwell equations; 1.2.3 Dielectric permittivity and magnetic permeability of a medium; 1.2.4 The polarization current; 1.2.5 The frequency dispersion and the spatial dispersion (chirality); 1.2.6 Complex permittivity; 1.2.7 The radiation condition; 1.2.8 The wave equations
327   $a1.2.9 The reciprocity conditions1.2.10 Average energy losses; 1.2.11 The dispersion relations; 1.3 Idealized objects; 1.3.1 Interface of two media; 1.3.2 The impedance (one-side) boundary conditions; 1.3.3 Skin layer; 1.3.4 Ideal conductor; 1.3.5 Singularities of fields near the edge or vertex; 1.3.6 The line current and the point current; 1.4 Uniqueness and existence of solution; 1.4.1 Uniqueness of solution; 1.4.2 Violation of the uniqueness theorem: eigenoscillations; 2 Plane Waves; 2.1 Plane waves in an infinite homogeneous medium; 2.1.1 The phase velocity; 2.1.2 The elliptic polarization
327   $a2.1.3 Eigenwaves in chiral media2.1.4 Turning of the polarization plane in the chiral media; 2.1.5 The group velocity; 2.1.6 The relativity restrictions on the propagation factor; 2.2 Plane waves in a plano-layered medium; 2.2.1 Medium with constant wave resistance; 2.2.2 The slowly varying wave resistance; 2.2.3 The periodical layer; 2.2.4 Nonreflecting coating; 2.2.5 The oblique incidence; 2.2.6 Plano-parallel chiral medium; 2.2.7 Media with ? < 0, ? < 0; 3 Closed Waveguides; 3.1 Eigenmodes in nonfilled waveguides; 3.1.1 Eigenmodes; 3.1.2 The TM-, TE-, and TEM-modes
327   $a3.1.3 The functional orthogonality of the fields of eigenmodes3.1.4 The electric and magnetic Hertz vectors; 3.1.5 Rectangular waveguides; 3.1.6 Circular waveguides; 3.1.7 Multiple-connected cross-sections; 3.2 Waves in waveguides with nonhomogeneous cross-section filling; 3.2.1 Nonhomogeneous filling and impedance walls; 3.2.2 Wave number in impedance waveguide; 3.2.3 Losses in impedance waveguide; 3.2.4 Orthogonality condition; 3.2.5 Complex and associated modes; 3.3 Excitation of closed waveguides; 3.3.1 Excitation by extrinsic current; 3.3.2 The slot excitation and end-plane excitation
327   $a3.3.3 Integration in the plane of a complex variable3.4 Nonregular closed waveguides; 3.4.1 The cross-section method; 3.4.2 Slowly varying parameters; 3.4.3 The diaphragm: equation for field in the slot; 3.4.4 The diaphragm: equation for current on strips; 3.4.5 Diffraction on the screen with a hole; 3.4.6 Open end of waveguide; 4 Closed Resonators; 4.1 Resonators with ideal-conducting walls; 4.1.1 Waveguide resonators without filling; 4.1.2 Resonators of arbitrary shape; 4.1.3 Calculation of eigenfrequencies; 4.1.4 Variational technique; 4.1.5 Excitation of resonators
327   $a4.2 Resonators with impedance walls
330   $aThis first book to develop the theoretical basics from the concept of guided wave optics is all set to become a standard in fundamental concepts of electromagnetic waves within the field of telecommunications.Maxwell equationsPlane wavesClosed waveguidesClosed ResonatorsOpen LinesBackgrounds of Antenna TheoryDiffraction on Metallic and Dielectric ObjectsComplementary References With its chapters on high frequency waveguides this book is aimed at both scientists and professionals in electrical engineering and telecommunications.
606   $aElectrodynamics
606   $aElectromagnetic theory
615  0$aElectrodynamics.
615  0$aElectromagnetic theory.
676   $a537.6
676   $a539.708
700   $aKat?? senelenbaum$b B. Z$g(Boris Zakharovich)$01611177
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910830562303321
996   $aHigh-frequency electrodynamics$93939287
997   $aUNINA