High-frequency electrodynamics:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH-Verl.
2006
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| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 321 - 323 |
| Beschreibung: | XIII, 329 S. graph. Darst. |
| ISBN: | 9783527405299 3527405291 |
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Datensatz im Suchindex
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| adam_text | BORIS Z. KATSENELENBAUM HIGH-FREQUENCY ELECTRODYNAMICS WILEY- VCH
WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE XI 1 THE MAXWELL
EQUATIONS 1 1.1 COMPLEX AMPLITUDES 1 1.1.1 HARMONIC (MONOCHROMATIC)
OSCILLATIONS 1 1.1.2 COMPLEX AMPLITUDES 2 1.1.3 THE PERIOD-AVERAGE
PRODUCT OF TWO HARMONIC FUNCTIONS 3 1.2 THE MAXWELL EQUATIONS 4 1.2.1
THE CONDUCTION CURRENT AND THE EXTRINSIC CURRENT 4 1.2.2 THE MAXWELL
EQUATIONS 5 1.2.3 DIELECTRIC PERMITTIVITY AND MAGNETIC PERMEABILITY OF A
MEDIUM 6 1.2.4 THE POLARIZATION CURRENT 7 1.2.5 THE FREQUENCY DISPERSION
AND THE SPATIAL DISPERSION (CHIRALITY) 10 1.2.6 COMPLEX PERMITTIVITY 11
1.2.7 THE RADIATION CONDITION 12 1.2.8 THE WAVE EQUATIONS 14 1.2.9 THE
RECIPROCITY CONDITIONS 16 1.2.10 AVERAGE ENERGY LOSSES 18 1.2.11 THE
DISPERSION RELATIONS 19 1.3 IDEALIZED OBJECTS 22 1.3.1 INTERFACE OF TWO
MEDIA 22 1.3.2 THE IMPEDANCE (ONE-SIDE) BOUNDARY CONDITIONS 24 1.3.3
SKIN LAYER 24 1.3A IDEAL CONDUCTOR 27 1.3.5 SINGULARITIES OF FIELDS NEAR
THE EDGE OR VERTEX 28 1.3.6 THE LINE CURRENT AND THE POINT CURRENT 32
1.4 UNIQUENESS AND EXISTENCE OF SOLUTION 35 1.4.1 UNIQUENESS OF SOLUTION
35 1.4.2 VIOLATION OF THE UNIQUENESS THEOREM: EIGENOSCILLATIONS 38
HIGH-FREQUENCY ELECTRODYNAMICS. BORIS Z. KATSENELENBAUM COPYRIGHT 2006
WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 3-527-40529-1 VII
CONTENTS 2 PLANE WAVES 41 2.1 PLANE WAVES IN AN INFINITE HOMOGENEOUS
MEDIUM 41 2.1.1 THE PHASE VELOCITY 41 2.1.2 THE ELLIPTIC POLARIZATION 43
2.1.3 EIGENWAVES IN CHIRAL MEDIA 45 2.1.4 TURNING OF THE POLARIZATION
PLANE IN THE CHIRAL MEDIA 47 2.1.5 THE GROUP VELOCITY 48 2.1.6 THE
RELATIVITY RESTRICTIONS ON THE PROPAGATION FACTOR 50 2.2 PLANE WAVES IN
A PIANO-LAYERED MEDIUM 52 2.2.1 MEDIUM WITH CONSTANT WAVE RESISTANCE 52
2.2.2 THE SLOWLY VARYING WAVE RESISTANCE 55 2.2.3 THE PERIODICAL LAYER
57 2.2.4 NONREFLECTING COATING 59 2.2.5 THE OBLIQUE INCIDENCE 61 2.2.6
PIANO-PARALLEL CHIRAL MEDIUM 64 2.2.7 MEDIA WITH 0, Y. 0 66 3
CLOSED WAVEGUIDES 71 3.1 EIGENMODES IN NONFILLED WAVEGUIDES 71 3.1.1
EIGENMODES 72 3.1.2 THE TM-, TE-, AND TEM-MODES 74 3.1.3 THE FUNCTIONAL
ORTHOGONALITY OF THE FIELDS OF EIGENMODES 75 3.1.4 THE ELECTRIC AND
MAGNETIC HERTZ VECTORS 77 3.1.5 RECTANGULAR WAVEGUIDES 78 3.1.6 CIRCULAR
WAVEGUIDES 81 3.1.7 MULTIPLE-CONNECTED CROSS-SECTIONS 83 3.2 WAVES IN
WAVEGUIDES WITH NONHOMOGENEOUS CROSS-SECTION FILLING 86 3.2.1
NONHOMOGENEOUS FILLING AND IMPEDANCE WALLS 86 3.2.2 WAVE NUMBER IN
IMPEDANCE WAVEGUIDE 87 3.2.3 LOSSES IN IMPEDANCE WAVEGUIDE 91 3.2.4
ORTHOGONALITY CONDITION 93 3.2.5 COMPLEX AND ASSOCIATED MODES 95 3.3
EXCITATION OF CLOSED WAVEGUIDES 97 3.3.1 EXCITATION BY EXTRINSIC CURRENT
97 3.3.2 THE SLOT EXCITATION AND END-PLANE EXCITATION 100 3.3.3
INTEGRATION IN THE PLANE OF A COMPLEX VARIABLE 102 3.4 NONREGULAR CLOSED
WAVEGUIDES 208 3.4.1 THE CROSS-SECTION METHOD 208 3.4.2 SLOWLY VARYING
PARAMETERS 223 3.4.3 THE DIAPHRAGM: EQUATION FOR FIELD IN THE SLOT 226
3.4.4 THE DIAPHRAGM: EQUATION FOR CURRENT ON STRIPS 229 CONTENTS VII
3.4.5 DIFFRACTION ON THE SCREEN WITH A HOLE 220 3.4.6 OPEN END OF
WAVEGUIDE 225 4 CLOSED RESONATORS 129 4.1 RESONATORS WITH
IDEAL-CONDUCTING WALLS 229 4.1.1 WAVEGUIDE RESONATORS WITHOUT FILLING
229 4.1.2 RESONATORS OF ARBITRARY SHAPE 232 4.1.3 CALCULATION OF
EIGENFREQUENCIES 134 4.1.4 VARIATIONAL TECHNIQUE 236 4.1.5 EXCITATION OF
RESONATORS 239 4.2 RESONATORS WITH IMPEDANCE WALLS 243 4.2.1 COMPLEX
EIGENFREQUENCIES 243 4.2.2 DISPLACEMENT OF EIGENFREQUENCIES 246 4.2.3
IMPEDANCE AS A SPECTRAL PARAMETER 247 5 OPEN LINES 151 5.1 DIELECTRIC
WAVEGUIDES 252 5.1.1 CIRCULAR DIELECTRIC WAVEGUIDES 252 5.1.2 EIGENMODES
OF DIELECTRIC WAVEGUIDES WITH ARBITRARY CROSS-SECTION 254 5.1.3
EXCITATION OF DIELECTRIC WAVEGUIDES 257 5.1.4 NONREGULAR DIELECTRIC
WAVEGUIDES 263 5.1.5 THE OPTICAL FIBER 266 5.2 THE LINES WITH SURFACE
WAVE 270 5.2.1 NONIDEAL METALLIC CYLINDER 270 5.2.2 THE IDEAL METALLIC
CYLINDER COVERED BY A THIN DIELECTRIC LAYER 273 5.2.3 THE
SHORT-PERIODICAL SURFACE 275 5.2.4 THE CORRUGATED SURFACE 278 5.2.5 SLOW
WAVES IN CLOSED WAVEGUIDES 282 5.2.6 THE HELIX LINE; THE ARRAY 184 5.2.7
THE MICROSTRIP LINE 287 5.3 THE WAVE BEAM 289 5.3.1 THE WAVE BEAM 289
5.3.2 PARABOLIC EQUATION 293 5.3.3 THE ENERGY TRANSMISSION COEFFICIENT
295 5.3.4 OPTIMAL ANTENNA AND RECTENNA SHAPES 198 5.3.5 FIELDS IN THE
RECTENNA PLANE 202 5.3.6 FREE PHASE OF DESIRED FIELD ON RECTENNA 203
5.3.7 THE LENS LINE 206 6 BACKGROUNDS OF ANTENNA THEORY 211 6.1
RADIATION OF CURRENT SET 222 VIIII CONTENTS 6.1.1 THE ELEMENTARY
ELECTRIC DIPOLE AND MULTIPOLE 222 6.1.2 FIELD OF ARBITRARY CURRENTS 225
6.1.3 THE ELEMENTARY MAGNETIC DIPOLE AND MULTIPOLE 228 6.1.4 THE
HALF-WAVE VIBRATOR 229 6.1.5 THE MULTIVIBRATOR ANTENNA 224 6.2 APERTURE
ANTENNAS 225 6.2.1 RADIATION FROM APERTURE 225 6.2.2 THE GREEN FUNCTION
METHOD 228 6.2.3 THE RADIATION PATTERN 230 6.2.4 INVERSE PROBLEM 232
6.2.5 THE NEAR FIELD ZONE, FRESNEL ZONE, AND FAR FIELD ZONE 234 6.2.6
GEOMETRIC OPTICS 236 6.3 VOLUME ANTENNAS 239 6.3.1 RADIATION FROM HOLES
239 6.3.2 FIELD IN NARROW LONG SLOT 243 6.3.3 RESONANT ANTENNAS 245
6.3.4 TRANSPARENCY OF SHORT-PERIODICAL ARRAY 247 6.3.5 DIELECTRIC
ANTENNAS 249 6.3.6 THE INVERSE PROBLEM FOR VOLUME ANTENNAS 253 6.3.7
ANALYTICAL CONTINUATION OF THE FIELD 257 7 DIFFRACTION ON METALLIC AND
DIELECTRIC OBJECTS 261 7.1 DIFFRACTION OF THE PLANE WAVE ON CIRCULAR
WAVEGUIDE 262 7.1.1 SCALAR POTENTIALS 262 7.1.2 THE VARIABLE SEPARATION
METHOD: THE RAYLEIGH SERIES 262 7.1.3 THE WATSON SERIES 264 7.1 A
DIELECTRIC CYLINDER 269 7.2 DIFFRACTION ON METALLIC HALF-PLANE 272 7.2.1
USAGE OF THE VARIABLE SEPARATION METHOD 272 7.2.2 CURRENTS ON METALLIC
SURFACE 273 7.2.3 THE FAR FIELD 274 7.3 THE DEBYE POTENTIALS:
DIFFRACTION ON A METALLIC SPHERE 277 7.3.1 THE DEBYE POTENTIALS 277
7.3.2 THE DEBYE POTENTIALS FOR FIELDS OF ELEMENTARY SOURCES 278 7.3.3
FIELDS OF ELEMENTARY SOURCES LOCATED AT POINT WITH COMPLEX COORDINATES
279 7.3.4 DIFFRACTION OF THE PLANE WAVE ON METALLIC SPHERE: THE RAYLEIGH
SERIES 282 7.3.5 SMALL SPHERE: DIPOLE MOMENTA 284 7.3.6 LARGE SPHERE:
THE WATSON SERIES 285 7.4 SMALL BODIES; LARGE BODIES 288 7A.I
DIFFRACTION ON THE BODY WITH NONCOORDINATE SURFACE 288 CONTENTS IX 7.4.2
SMALL METALLIC BODIES 292 7.4.3 THE DUALITY PRINCIPLE FOR THE HOLE IN
PLAIN SCREEN 294 7AA THIN METALLIC CYLINDER OF ARBITRARY CROSS-SECTION:
THE H-POLARIZATION 298 7.4.5 THIN METALLIC CYLINDER OF ARBITRARY
CROSS-SECTION: THE E-POLARIZATION 300 7.4.6 THE CURRENT ON A METALLIC
SURFACE OF SMALL CURVATURE 304 7A.7 RAY STRUCTURE OF THE FIELD IN
SHADOW: GEOMETRO-OPTICAL THEORY OF DIFFRACTION 306 7.4.8 THE METHOD OF
AUXILIARY SOURCES 308 7.4.9 THE OPTICAL THEOREM 322 7.4.10 SPECTRAL
METHOD FOR THE DIFFRACTION PROBLEMS 326 GENERAL REFERENCES 321
COMPLEMENTARY REFERENCES 322 INDEX 325
|
| adam_txt |
BORIS Z. KATSENELENBAUM HIGH-FREQUENCY ELECTRODYNAMICS WILEY- VCH
WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE XI 1 THE MAXWELL
EQUATIONS 1 1.1 COMPLEX AMPLITUDES 1 1.1.1 HARMONIC (MONOCHROMATIC)
OSCILLATIONS 1 1.1.2 COMPLEX AMPLITUDES 2 1.1.3 THE PERIOD-AVERAGE
PRODUCT OF TWO HARMONIC FUNCTIONS 3 1.2 THE MAXWELL EQUATIONS 4 1.2.1
THE CONDUCTION CURRENT AND THE EXTRINSIC CURRENT 4 1.2.2 THE MAXWELL
EQUATIONS 5 1.2.3 DIELECTRIC PERMITTIVITY AND MAGNETIC PERMEABILITY OF A
MEDIUM 6 1.2.4 THE POLARIZATION CURRENT 7 1.2.5 THE FREQUENCY DISPERSION
AND THE SPATIAL DISPERSION (CHIRALITY) 10 1.2.6 COMPLEX PERMITTIVITY 11
1.2.7 THE RADIATION CONDITION 12 1.2.8 THE WAVE EQUATIONS 14 1.2.9 THE
RECIPROCITY CONDITIONS 16 1.2.10 AVERAGE ENERGY LOSSES 18 1.2.11 THE
DISPERSION RELATIONS 19 1.3 IDEALIZED OBJECTS 22 1.3.1 INTERFACE OF TWO
MEDIA 22 1.3.2 THE IMPEDANCE (ONE-SIDE) BOUNDARY CONDITIONS 24 1.3.3
SKIN LAYER 24 1.3A IDEAL CONDUCTOR 27 1.3.5 SINGULARITIES OF FIELDS NEAR
THE EDGE OR VERTEX 28 1.3.6 THE LINE CURRENT AND THE POINT CURRENT 32
1.4 UNIQUENESS AND EXISTENCE OF SOLUTION 35 1.4.1 UNIQUENESS OF SOLUTION
35 1.4.2 VIOLATION OF THE UNIQUENESS THEOREM: EIGENOSCILLATIONS 38
HIGH-FREQUENCY ELECTRODYNAMICS. BORIS Z. KATSENELENBAUM COPYRIGHT 2006
WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 3-527-40529-1 VII
CONTENTS 2 PLANE WAVES 41 2.1 PLANE WAVES IN AN INFINITE HOMOGENEOUS
MEDIUM 41 2.1.1 THE PHASE VELOCITY 41 2.1.2 THE ELLIPTIC POLARIZATION 43
2.1.3 EIGENWAVES IN CHIRAL MEDIA 45 2.1.4 TURNING OF THE POLARIZATION
PLANE IN THE CHIRAL MEDIA 47 2.1.5 THE GROUP VELOCITY 48 2.1.6 THE
RELATIVITY RESTRICTIONS ON THE PROPAGATION FACTOR 50 2.2 PLANE WAVES IN
A PIANO-LAYERED MEDIUM 52 2.2.1 MEDIUM WITH CONSTANT WAVE RESISTANCE 52
2.2.2 THE SLOWLY VARYING WAVE RESISTANCE 55 2.2.3 THE PERIODICAL LAYER
57 2.2.4 NONREFLECTING COATING 59 2.2.5 THE OBLIQUE INCIDENCE 61 2.2.6
PIANO-PARALLEL CHIRAL MEDIUM 64 2.2.7 MEDIA WITH 0, Y. 0 66 3
CLOSED WAVEGUIDES 71 3.1 EIGENMODES IN NONFILLED WAVEGUIDES 71 3.1.1
EIGENMODES 72 3.1.2 THE TM-, TE-, AND TEM-MODES 74 3.1.3 THE FUNCTIONAL
ORTHOGONALITY OF THE FIELDS OF EIGENMODES 75 3.1.4 THE ELECTRIC AND
MAGNETIC HERTZ VECTORS 77 3.1.5 RECTANGULAR WAVEGUIDES 78 3.1.6 CIRCULAR
WAVEGUIDES 81 3.1.7 MULTIPLE-CONNECTED CROSS-SECTIONS 83 3.2 WAVES IN
WAVEGUIDES WITH NONHOMOGENEOUS CROSS-SECTION FILLING 86 3.2.1
NONHOMOGENEOUS FILLING AND IMPEDANCE WALLS 86 3.2.2 WAVE NUMBER IN
IMPEDANCE WAVEGUIDE 87 3.2.3 LOSSES IN IMPEDANCE WAVEGUIDE 91 3.2.4
ORTHOGONALITY CONDITION 93 3.2.5 COMPLEX AND ASSOCIATED MODES 95 3.3
EXCITATION OF CLOSED WAVEGUIDES 97 3.3.1 EXCITATION BY EXTRINSIC CURRENT
97 3.3.2 THE SLOT EXCITATION AND END-PLANE EXCITATION 100 3.3.3
INTEGRATION IN THE PLANE OF A COMPLEX VARIABLE 102 3.4 NONREGULAR CLOSED
WAVEGUIDES 208 3.4.1 THE CROSS-SECTION METHOD 208 3.4.2 SLOWLY VARYING
PARAMETERS 223 3.4.3 THE DIAPHRAGM: EQUATION FOR FIELD IN THE SLOT 226
3.4.4 THE DIAPHRAGM: EQUATION FOR CURRENT ON STRIPS 229 CONTENTS VII
3.4.5 DIFFRACTION ON THE SCREEN WITH A HOLE 220 3.4.6 OPEN END OF
WAVEGUIDE 225 4 CLOSED RESONATORS 129 4.1 RESONATORS WITH
IDEAL-CONDUCTING WALLS 229 4.1.1 WAVEGUIDE RESONATORS WITHOUT FILLING
229 4.1.2 RESONATORS OF ARBITRARY SHAPE 232 4.1.3 CALCULATION OF
EIGENFREQUENCIES 134 4.1.4 VARIATIONAL TECHNIQUE 236 4.1.5 EXCITATION OF
RESONATORS 239 4.2 RESONATORS WITH IMPEDANCE WALLS 243 4.2.1 COMPLEX
EIGENFREQUENCIES 243 4.2.2 DISPLACEMENT OF EIGENFREQUENCIES 246 4.2.3
IMPEDANCE AS A SPECTRAL PARAMETER 247 5 OPEN LINES 151 5.1 DIELECTRIC
WAVEGUIDES 252 5.1.1 CIRCULAR DIELECTRIC WAVEGUIDES 252 5.1.2 EIGENMODES
OF DIELECTRIC WAVEGUIDES WITH ARBITRARY CROSS-SECTION 254 5.1.3
EXCITATION OF DIELECTRIC WAVEGUIDES 257 5.1.4 NONREGULAR DIELECTRIC
WAVEGUIDES 263 5.1.5 THE OPTICAL FIBER 266 5.2 THE LINES WITH SURFACE
WAVE 270 5.2.1 NONIDEAL METALLIC CYLINDER 270 5.2.2 THE IDEAL METALLIC
CYLINDER COVERED BY A THIN DIELECTRIC LAYER 273 5.2.3 THE
SHORT-PERIODICAL SURFACE 275 5.2.4 THE CORRUGATED SURFACE 278 5.2.5 SLOW
WAVES IN CLOSED WAVEGUIDES 282 5.2.6 THE HELIX LINE; THE ARRAY 184 5.2.7
THE MICROSTRIP LINE 287 5.3 THE WAVE BEAM 289 5.3.1 THE WAVE BEAM 289
5.3.2 PARABOLIC EQUATION 293 5.3.3 THE ENERGY TRANSMISSION COEFFICIENT
295 5.3.4 OPTIMAL ANTENNA AND RECTENNA SHAPES 198 5.3.5 FIELDS IN THE
RECTENNA PLANE 202 5.3.6 FREE PHASE OF DESIRED FIELD ON RECTENNA 203
5.3.7 THE LENS LINE 206 6 BACKGROUNDS OF ANTENNA THEORY 211 6.1
RADIATION OF CURRENT SET 222 VIIII CONTENTS 6.1.1 THE ELEMENTARY
ELECTRIC DIPOLE AND MULTIPOLE 222 6.1.2 FIELD OF ARBITRARY CURRENTS 225
6.1.3 THE ELEMENTARY MAGNETIC DIPOLE AND MULTIPOLE 228 6.1.4 THE
HALF-WAVE VIBRATOR 229 6.1.5 THE MULTIVIBRATOR ANTENNA 224 6.2 APERTURE
ANTENNAS 225 6.2.1 RADIATION FROM APERTURE 225 6.2.2 THE GREEN FUNCTION
METHOD 228 6.2.3 THE RADIATION PATTERN 230 6.2.4 INVERSE PROBLEM 232
6.2.5 THE NEAR FIELD ZONE, FRESNEL ZONE, AND FAR FIELD ZONE 234 6.2.6
GEOMETRIC OPTICS 236 6.3 VOLUME ANTENNAS 239 6.3.1 RADIATION FROM HOLES
239 6.3.2 FIELD IN NARROW LONG SLOT 243 6.3.3 RESONANT ANTENNAS 245
6.3.4 TRANSPARENCY OF SHORT-PERIODICAL ARRAY 247 6.3.5 DIELECTRIC
ANTENNAS 249 6.3.6 THE INVERSE PROBLEM FOR VOLUME ANTENNAS 253 6.3.7
ANALYTICAL CONTINUATION OF THE FIELD 257 7 DIFFRACTION ON METALLIC AND
DIELECTRIC OBJECTS 261 7.1 DIFFRACTION OF THE PLANE WAVE ON CIRCULAR
WAVEGUIDE 262 7.1.1 SCALAR POTENTIALS 262 7.1.2 THE VARIABLE SEPARATION
METHOD: THE RAYLEIGH SERIES 262 7.1.3 THE WATSON SERIES 264 7.1 A
DIELECTRIC CYLINDER 269 7.2 DIFFRACTION ON METALLIC HALF-PLANE 272 7.2.1
USAGE OF THE VARIABLE SEPARATION METHOD 272 7.2.2 CURRENTS ON METALLIC
SURFACE 273 7.2.3 THE FAR FIELD 274 7.3 THE DEBYE POTENTIALS:
DIFFRACTION ON A METALLIC SPHERE 277 7.3.1 THE DEBYE POTENTIALS 277
7.3.2 THE DEBYE POTENTIALS FOR FIELDS OF ELEMENTARY SOURCES 278 7.3.3
FIELDS OF ELEMENTARY SOURCES LOCATED AT POINT WITH COMPLEX COORDINATES
279 7.3.4 DIFFRACTION OF THE PLANE WAVE ON METALLIC SPHERE: THE RAYLEIGH
SERIES 282 7.3.5 SMALL SPHERE: DIPOLE MOMENTA 284 7.3.6 LARGE SPHERE:
THE WATSON SERIES 285 7.4 SMALL BODIES; LARGE BODIES 288 7A.I
DIFFRACTION ON THE BODY WITH NONCOORDINATE SURFACE 288 CONTENTS IX 7.4.2
SMALL METALLIC BODIES 292 7.4.3 THE DUALITY PRINCIPLE FOR THE HOLE IN
PLAIN SCREEN 294 7AA THIN METALLIC CYLINDER OF ARBITRARY CROSS-SECTION:
THE H-POLARIZATION 298 7.4.5 THIN METALLIC CYLINDER OF ARBITRARY
CROSS-SECTION: THE E-POLARIZATION 300 7.4.6 THE CURRENT ON A METALLIC
SURFACE OF SMALL CURVATURE 304 7A.7 RAY STRUCTURE OF THE FIELD IN
SHADOW: GEOMETRO-OPTICAL THEORY OF DIFFRACTION 306 7.4.8 THE METHOD OF
AUXILIARY SOURCES 308 7.4.9 THE OPTICAL THEOREM 322 7.4.10 SPECTRAL
METHOD FOR THE DIFFRACTION PROBLEMS 326 GENERAL REFERENCES 321
COMPLEMENTARY REFERENCES 322 INDEX 325 |
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| author | Kacenelenbaum, Boris Z. |
| author_facet | Kacenelenbaum, Boris Z. |
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| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV021799039 |
| illustrated | Illustrated |
| index_date | 2024-07-02T15:47:11Z |
| indexdate | 2024-07-09T20:44:53Z |
| institution | BVB |
| isbn | 9783527405299 3527405291 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015011577 |
| oclc_num | 633074302 |
| open_access_boolean | |
| owner | DE-92 DE-573 DE-706 DE-1043 DE-83 |
| owner_facet | DE-92 DE-573 DE-706 DE-1043 DE-83 |
| physical | XIII, 329 S. graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Wiley-VCH-Verl. |
| record_format | marc |
| spelling | Kacenelenbaum, Boris Z. Verfasser aut High-frequency electrodynamics Boris Z. Katsenelenbaum Weinheim Wiley-VCH-Verl. 2006 XIII, 329 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 321 - 323 Hochfrequenz (DE-588)4160130-0 gnd rswk-swf Elektromagnetische Welle (DE-588)4014301-6 gnd rswk-swf Elektromagnetische Welle (DE-588)4014301-6 s Hochfrequenz (DE-588)4160130-0 s DE-604 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2774922&prov=M&dok_var=1&dok_ext=htm Inhaltstext HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015011577&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kacenelenbaum, Boris Z. High-frequency electrodynamics Hochfrequenz (DE-588)4160130-0 gnd Elektromagnetische Welle (DE-588)4014301-6 gnd |
| subject_GND | (DE-588)4160130-0 (DE-588)4014301-6 |
| title | High-frequency electrodynamics |
| title_auth | High-frequency electrodynamics |
| title_exact_search | High-frequency electrodynamics |
| title_exact_search_txtP | High-frequency electrodynamics |
| title_full | High-frequency electrodynamics Boris Z. Katsenelenbaum |
| title_fullStr | High-frequency electrodynamics Boris Z. Katsenelenbaum |
| title_full_unstemmed | High-frequency electrodynamics Boris Z. Katsenelenbaum |
| title_short | High-frequency electrodynamics |
| title_sort | high frequency electrodynamics |
| topic | Hochfrequenz (DE-588)4160130-0 gnd Elektromagnetische Welle (DE-588)4014301-6 gnd |
| topic_facet | Hochfrequenz Elektromagnetische Welle |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=2774922&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015011577&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kacenelenbaumborisz highfrequencyelectrodynamics |