Negative-refraction metamaterials: fundamental principles and applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley-Interscience [u.a.]
2005
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 418 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9780471601463 0471601462 |
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| 245 | 1 | 0 | |a Negative-refraction metamaterials |b fundamental principles and applications |c ed. by G.V. Eleftheriades ; K.G. Balmain |
| 246 | 1 | 3 | |a Negative refraction metamaterials |
| 264 | 1 | |a Hoboken, NJ |b Wiley-Interscience [u.a.] |c 2005 | |
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| adam_text | NEGATIVE-REFRACTION METAMATERIALS FUNDAMENTAL PRINCIPLES AND
APPLICATIONS EDITED BY G.V.ELEFTHERIADES K. G. BAIMAIN IEEE PRESS WILEY-
INTERSCIENCE A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS
CONTRIBUTORS XI PREFACE XIII 1 NEGATIVE-REFRACTIVE-INDEX
TRANSMISSION-LINE METAMATERIALS 1 ASHWIN K. IYER AND GEORGE V.
ELEFTHERIADES 1.1 INTRODUCTION 1 1.1.1 VESELAGO AND THE LEFT-HANDED
MEDIUM (LHM) 1 1.1.2 NEGATIVE REFRACTION AT A PLANAR INTERFACE 2 1.1.3
FIAT LENSES AND FOCUSING 3 1.2 BACKGROUND 4 1.2.1 ARTIFICIAL DIELECTRICS
4 1.2.2 NEGATIVE PERMITTIVITY 5 1.2.3 NEGATIVE PERMEABILITY 7 1.2.4 THE
FIRST LHM 8 1.2.5 TERMINOLOGY 11 1.3 TRANSMISSION-LINE THEORY OF
NEGATIVE-REFRACTIVE-INDEX MEDIA 12 1.3.1 APPLICATION OF THE
TRANSMISSION-LINE THEORY OF DIELECTRICS TO THE SYNTHESIS OF LHM 18 1.4
PERIODICALLY LOADED NRI-TL METAMATERIALS 21 1.4.1 DISPERSION
CHARACTERISTICS 22 1.4.2 EFFECTIVE MEDIUM LIMIT 28 1.4.3 CLOSURE OF THE
STOPBAND: THE IMPEDANCE-MATCHED CONDI- TION 30 1.4.4 EQUIVALENT NRI-TL
UNI T CELL IN THE EFFECTIVE MEDIUM LIMIT 33 1.5 MICROWAVE CIRCUIT
SIMULATIONS 36 1.5.1 NEGATIVE REFRACTION 38 1.5.2 FOCUSING 39 1.6
EXPERIMENTAL VERIFICATION OF FOCUSING 41 VI CONTENTS 1.7 CONCLUSION 46
REFERENCES 48 2 MICROWAVE DEVICES AND ANTENNAS USING
NEGATIVE-REFRACTIVE-INDEX TRANS- MISSION-LINE METAMATERIALS 53 GEORGE V.
ELEFTHERIADES 2.1 INTRODUCTION 53 2.2 FUNDAMENTAL PROPERTIES 54 2.3
EFFECTIVE MEDIUM THEORY 55 2.4 A SUPER-RESOLVING
NEGATIVE-REFRACTIVE-INDEX TRANSMISSION-LINE LENS 57 2.5 COMPACT AND
BROADBAND PHASE-SHIFTING LINES 62 2.6 SERIES-FED ANTENNA ARRAYS WITH
REDUCED BEAM SQUINTING 65 2.7 A BROADBAND METAMATERIAL BALUN IN
MICROSTRIP 69 2.8 BROADBAND POWER COMBINERS USING ZERO-DEGREE
PHASE-SHIFTING LINES 72 2.9 ELECTRICALLY SMALL RING ANTENNA WITH
VERTICAL POLARIZATION 73 2.10 A LEAKY-WAVE BACKWARD ANTENNA RADIATING
ITS FUNDAMENTAL SPA- TIAL HARMONIE 75 2.11 A HIGH-DIRECTIVITY BACKWARD
NRI/MICROSTRIP COUPLER 77 2.12 PHASE-AGILE BRANCH-LINE MICROSTRIP
COUPLERS 82 2.13 CONCLUSION 83 APPENDIX 85 REFERENCES 88 3
SUPER-RESOLVING NEGATIVE-REFRACTIVE-INDEX TRANSMISSION-LINE LENSES 93
ANTHONY GRBIC AND GEORGE V. ELEFTHERIADES 3.1 THE DISTRIBUTED DUAL
TRANSMISSION LINE 94 3.2 THE PERIODIC DUAL TRANSMISSION LINE 95 3.3
INTERPRETING NEGATIVE PERMITTIVITY AND PERMEABILITY 98 3.3.1 NEGATIVE
PERMITTIVITY 98 3.3.2 NEGATIVE PERMEABILITY 102 3.3.3 COMBINING NEGATIVE
E AND NEGATIVE SS 105 3.4 THE 2-D DUAL TRANSMISSION LINE 106 3.4.1 THE
GENERALIZED 2-D PERIODIC ELECTRICAL NETWORK 108 3.4.2 PERIODIC ANALYSIS
OF THE 2-D DUAL TRANSMISSION LINE 111 3.4.3 THE 2-D DUAL TL AS AN
EFFECTIVE MEDIUM 115 3.5 THE NEGATIVE-REFRACTIVE-INDEX (NRI) TL LENS 119
CONTENTS VII 3.5.1 THE TRANSMISSION-LINE IMPLEMENTATION OF VESELAGO S
NRI LENS 120 3.5.2 PROPAGATION CHARACTERISTICS OF THE TL MESH 121 3.5.3
CONDITIONS FOR PERFECT IMAGING IN THE NRI-TL LENS 124 3.6 REFLECTION
AND TRANSMISSION THROUGH THE LOSSLESS NRI-TL LENS 126 3.6.1 PHASE
COMPENSATIONOFPROPAGATINGWAVES 130 3.6.2 GROWTH AND RESTORATION OF
EVANESCENT WAVES 130 3.7 THE SUPER-RESOLVING NRI TRANSMISSION-LINE LENS
133 3.7.1 THE EFFECT OF PERIODICITY ON IMAGE RESOLUTION AND THE GROWTH
OF EVANESCENT WAVES 140 3.7.2 THE OPTICAL TRANSFER FUNCTION OF THE
NRI-TL LENS 141 3.7.3 THE RESOLVING CAPABILITY OF A LOSSY NRI-TL LENS
144 3.8 AN EXPERIMENTAL NRI-TL LENS 150 3.9 CHARACTERIZATION OF AN
EXPERIMENTAL NRI-TL LENS 153 3.10 AN ISOTROPIE 3-D TL METAMATERIAL WITH
A NRI 157 REFERENCES 164 4 GAUSSIAN BEAM INTERACTIONS WITH METAMATERIALS
RICHARD W. ZIOLKOWSKI 5 NEGATIVE INDEX LENSES DAVID SCHURIG AND DAVID R.
SMITH 5. 1 INTRODUCTION 5.2 GEOMETRIE OPTICS 5.2.1 PATH VARIATION
EXAMPLE 5.3 GAUSSIAN OPTICS 5.3.1 SINGLE SURFACE 5.3.2 MULTIPLE SURFACES
171 171 174 178 179 186 188 192 198 208 209 213 213 215 221 223 223 231
DOUBLE-NEGATIVE (DNG) 4.1 INTRODUCTION 4.2 2-D FDTD SIMULATOR 4.3 NORMAL
INCIDENCE RESULTS 4.3.1 FIAT DNG LENSES 4.3.2 PHASE COMPENSATOR/BEAM
TRANSLATOR 4.4 OBLIQUE INCIDENCE RESULTS 4.5 GOOS-HAENCHEN EFFECT 4.6
SUBWAVELENGTH FOCUSING WITH A CONCAVE DNG LENS 4.7 CONCLUSIONS
REFERENCES VIII CONTENTS 5.3.3 THINLENSES 232 5.4 ABERRATIONS 233 5.4.1
SYSTEM OPTIC ELEMENTS 236 5.4.2 APERTURE STOP AND EXIT PUPIL 236 5.4.3
FOCAL POINTS 237 5.4.4 GENERAL AND REFERENCE RAY 237 5.4.5 OPTICAL
PATH-LENGTH DIFFERENCE 238 5.4.6 EXPAND THE DIFFERENCE 240 5.4.7
EXAMPLE: THINLENSES 241 REFERENCES 247 6 PLANAR ANISOTROPIE
RESONANCE-CONE METAMATERIALS 249 KEITH G. BAIMAIN AND ANDREA A. E.
LUETTGEN 6.1 INTRODUCTION 249 6.2 HOMOGENEOUS ANISOTROPIE-MEDIUM ANALYSIS
250 6.3 FREE-STANDING ANISOTROPIC-GRID METAMATERIAL 254 6.4 ANISOTROPIE
GRID OVER INFINITE GROUND 254 6.5 ANISOTROPIE GRID WITH VERTICAL
INDUCTORS, OVER INFINITE GROUND 257 6.6 CONCLUSIONS 265 REFERENCES 265 7
NEGATIVE REFRACTION AND SUBWAVELENGTH IMAGING IN PHOTONIC CRYSTALS 269
CHIYAN LUO AND JOHN D. JOANNOPOULOS 7.1 INTRODUCTION 269 7.1.1
INTRODUCTION TO PHOTONIC CRYSTALS 270 7.2 NEGATIVE REFRACTION IN
PHOTONIC CRYSTALS 272 7.2.1 ANALYSIS OF REFRACTION IN UNIFORM MATERIALS
272 7.2.2 ANALYSIS OF REFRACTION IN PHOTONIC CRYSTALS 273 7.2.3
DISPERSION CONTOURS OF 2-D PHOTONIC CRYSTALS 276 7.2.4 ALL-ANGLE
NEGATIVE REFRACTION 278 7.2.5 NEGATIVE REFRACTION IN THREE-DIMENSIONALLY
PERIODIC SYS- TEMS 283 7.2.6 CASE OF METALLIC PHOTONIC CRYSTALS 284
7.2.7 SUMMARY 285 7.3 SUBWAVELENGTH IMAGING WITH PHOTONIC CRYSTALS 286
7.3.1 VESELAGO-PENDRY LEFT-HANDED LENS 286 7.3.2 ORIGIN OF NEAR-FIELD
AMPLIFICATION 290 7.3.3 PHOTONIC-CRYSTAL SUPERLENSES 295 7.3.4 NUMERICAL
RESULTS 300 CONTENTS IX 7.3.4.1 SURFACE BAND STRUCTURE 300 7.3.4.2
TRANSMISSION SPECTRUM 301 7.3.5 IMAGE PATTERNS OF A SUPERLENS 302 7.3.6
DISCUSSION 306 7.4 CONCLUSIONS 309 REFERENCES 311 8 PLASMONIC NANOWIRE
METAMATERIALS 313 ANDREY K. SARYCHEV AND VLADIMIR M. SHALAEV 8.1
INTRODUCTION 313 8.2 ELECTRODYNAMICS OF A SINGLE METAL NANOWIRE 314 8.3
CONDUCTING STICK COMPOSITES: EFFECTIVE MEDIUM APPROACH 321 8.4
CONDUCTING STICK COMPOSITES: GIANT ENHANCEMENT OFLOCALFIELDS 324 8.5
MAGNETIC RESPONSE OF CONDUCTING STICK COMPOSITES 328 8.6 PLANAR NANOWIRE
COMPOSITES 330 8.7 CONCLUSIONS 334 REFERENCES 335 9 AN OVERVIEW OF
SALIENT PROPERTIES OF PLANAR GUIDED-WAVE STRUCTURES WITH DOUBLE-NEGATIVE
(DNG) AND SINGLE-NEGATIVE (SNG) LAYERS 339 ANDREA ALU AND NADER ENGHETA
9.1 INTRODUCTION 340 9.2 PARALLEL-PLATE WAVEGUIDES WITH DNG AND SNG
METAMATERIALS 341 9.2.1 LARGE-APERTURE MONOMODAL WAVEGUIDES WITH ENG-MNG
PAIRS 343 9.2.2 WAVEGUIDING IN ULTRA-THIN STRUCTURES WITH LATERAL
DIMENSION BELOW DIFFRACTION LIMITS 346 9.2.3 POWER PROPAGATION IN
DPS-DNG WAVEGUIDES 348 9.3 OPEN SLAB WAVEGUIDES WITH DNG METAMATERIALS
357 9.4 THE CONTRADIRECTIONAL (BACKWARD) COUPLERS 365 REFERENCES 375 10
DISPERSION ENGINEERING: THE USE OF ABNORMAL VELOCITIES AND NEGATIVE
INDEX OF REFRACTION TO CONTROL DISPERSIVE EFFECTS 381 MOHAMMAD MOJAHEDI
AND GEORGE V. ELEFTHERIADES 10.1 INTRODUCTION 381 10.2 ABNORMAL GROUP
VELOCITY 385 10.3 WAVE PROPAGATION IN A SLAB WITH NEGATIVE INDEX OF
REFRACTION 387 10.4 PLTL WITH AN EFFECTIVE NIR AND NEGATIVE GROUP INDEX
392 X CONTENTS 10.4.1 GENERAL THEORY OF PLTL EXHIBITING NEGATIVE PHASE
DELAY 392 10.4.2 FREQUENCY DOMAIN SIMULATIONS 393 10.4.3 FREQUENCY
DOMAIN MEASUREMENTS 397 10.4.4 TIME DOMAIN SIMULATIONS 400 10.4.4.1
NEGATIVE GROUP DELAY 400 10.4.4.2 LUMINAL FRONT VELOCITY 400 10.4.4.3
PHYSICAL MECHANISM UNDERLYING NEGATIVE GROUP DELAY 402 10.4.5
TIME-DOMAIN MEASUREMENTS 404 10.5 CONCLUSIONS 407 REFERENCES 408 INDEX
413
|
| adam_txt |
NEGATIVE-REFRACTION METAMATERIALS FUNDAMENTAL PRINCIPLES AND
APPLICATIONS EDITED BY G.V.ELEFTHERIADES K. G. BAIMAIN IEEE PRESS WILEY-
INTERSCIENCE A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS
CONTRIBUTORS XI PREFACE XIII 1 NEGATIVE-REFRACTIVE-INDEX
TRANSMISSION-LINE METAMATERIALS 1 ASHWIN K. IYER AND GEORGE V.
ELEFTHERIADES 1.1 INTRODUCTION 1 1.1.1 VESELAGO AND THE LEFT-HANDED
MEDIUM (LHM) 1 1.1.2 NEGATIVE REFRACTION AT A PLANAR INTERFACE 2 1.1.3
FIAT LENSES AND FOCUSING 3 1.2 BACKGROUND 4 1.2.1 ARTIFICIAL DIELECTRICS
4 1.2.2 NEGATIVE PERMITTIVITY 5 1.2.3 NEGATIVE PERMEABILITY 7 1.2.4 THE
FIRST LHM 8 1.2.5 TERMINOLOGY 11 1.3 TRANSMISSION-LINE THEORY OF
NEGATIVE-REFRACTIVE-INDEX MEDIA 12 1.3.1 APPLICATION OF THE
TRANSMISSION-LINE THEORY OF DIELECTRICS TO THE SYNTHESIS OF LHM 18 1.4
PERIODICALLY LOADED NRI-TL METAMATERIALS 21 1.4.1 DISPERSION
CHARACTERISTICS 22 1.4.2 EFFECTIVE MEDIUM LIMIT 28 1.4.3 CLOSURE OF THE
STOPBAND: THE IMPEDANCE-MATCHED CONDI- TION 30 1.4.4 EQUIVALENT NRI-TL
UNI T CELL IN THE EFFECTIVE MEDIUM LIMIT 33 1.5 MICROWAVE CIRCUIT
SIMULATIONS 36 1.5.1 NEGATIVE REFRACTION 38 1.5.2 FOCUSING 39 1.6
EXPERIMENTAL VERIFICATION OF FOCUSING 41 VI CONTENTS 1.7 CONCLUSION 46
REFERENCES 48 2 MICROWAVE DEVICES AND ANTENNAS USING
NEGATIVE-REFRACTIVE-INDEX TRANS- MISSION-LINE METAMATERIALS 53 GEORGE V.
ELEFTHERIADES 2.1 INTRODUCTION 53 2.2 FUNDAMENTAL PROPERTIES 54 2.3
EFFECTIVE MEDIUM THEORY 55 2.4 A SUPER-RESOLVING
NEGATIVE-REFRACTIVE-INDEX TRANSMISSION-LINE LENS 57 2.5 COMPACT AND
BROADBAND PHASE-SHIFTING LINES 62 2.6 SERIES-FED ANTENNA ARRAYS WITH
REDUCED BEAM SQUINTING 65 2.7 A BROADBAND METAMATERIAL BALUN IN
MICROSTRIP 69 2.8 BROADBAND POWER COMBINERS USING ZERO-DEGREE
PHASE-SHIFTING LINES 72 2.9 ELECTRICALLY SMALL RING ANTENNA WITH
VERTICAL POLARIZATION 73 2.10 A LEAKY-WAVE BACKWARD ANTENNA RADIATING
ITS FUNDAMENTAL SPA- TIAL HARMONIE 75 2.11 A HIGH-DIRECTIVITY BACKWARD
NRI/MICROSTRIP COUPLER 77 2.12 PHASE-AGILE BRANCH-LINE MICROSTRIP
COUPLERS 82 2.13 CONCLUSION 83 APPENDIX 85 REFERENCES 88 3
SUPER-RESOLVING NEGATIVE-REFRACTIVE-INDEX TRANSMISSION-LINE LENSES 93
ANTHONY GRBIC AND GEORGE V. ELEFTHERIADES 3.1 THE DISTRIBUTED DUAL
TRANSMISSION LINE 94 3.2 THE PERIODIC DUAL TRANSMISSION LINE 95 3.3
INTERPRETING NEGATIVE PERMITTIVITY AND PERMEABILITY 98 3.3.1 NEGATIVE
PERMITTIVITY 98 3.3.2 NEGATIVE PERMEABILITY 102 3.3.3 COMBINING NEGATIVE
E AND NEGATIVE SS 105 3.4 THE 2-D DUAL TRANSMISSION LINE 106 3.4.1 THE
GENERALIZED 2-D PERIODIC ELECTRICAL NETWORK 108 3.4.2 PERIODIC ANALYSIS
OF THE 2-D DUAL TRANSMISSION LINE 111 3.4.3 THE 2-D DUAL TL AS AN
EFFECTIVE MEDIUM 115 3.5 THE NEGATIVE-REFRACTIVE-INDEX (NRI) TL LENS 119
CONTENTS VII 3.5.1 THE TRANSMISSION-LINE IMPLEMENTATION OF VESELAGO'S
NRI LENS 120 3.5.2 PROPAGATION CHARACTERISTICS OF THE TL MESH 121 3.5.3
CONDITIONS FOR "PERFECT" IMAGING IN THE NRI-TL LENS 124 3.6 REFLECTION
AND TRANSMISSION THROUGH THE LOSSLESS NRI-TL LENS 126 3.6.1 PHASE
COMPENSATIONOFPROPAGATINGWAVES 130 3.6.2 GROWTH AND RESTORATION OF
EVANESCENT WAVES 130 3.7 THE SUPER-RESOLVING NRI TRANSMISSION-LINE LENS
133 3.7.1 THE EFFECT OF PERIODICITY ON IMAGE RESOLUTION AND THE GROWTH
OF EVANESCENT WAVES 140 3.7.2 THE OPTICAL TRANSFER FUNCTION OF THE
NRI-TL LENS 141 3.7.3 THE RESOLVING CAPABILITY OF A LOSSY NRI-TL LENS
144 3.8 AN EXPERIMENTAL NRI-TL LENS 150 3.9 CHARACTERIZATION OF AN
EXPERIMENTAL NRI-TL LENS 153 3.10 AN ISOTROPIE 3-D TL METAMATERIAL WITH
A NRI 157 REFERENCES 164 4 GAUSSIAN BEAM INTERACTIONS WITH METAMATERIALS
RICHARD W. ZIOLKOWSKI 5 NEGATIVE INDEX LENSES DAVID SCHURIG AND DAVID R.
SMITH 5. 1 INTRODUCTION 5.2 GEOMETRIE OPTICS 5.2.1 PATH VARIATION
EXAMPLE 5.3 GAUSSIAN OPTICS 5.3.1 SINGLE SURFACE 5.3.2 MULTIPLE SURFACES
171 171 174 178 179 186 188 192 198 208 209 213 213 215 221 223 223 231
DOUBLE-NEGATIVE (DNG) 4.1 INTRODUCTION 4.2 2-D FDTD SIMULATOR 4.3 NORMAL
INCIDENCE RESULTS 4.3.1 FIAT DNG LENSES 4.3.2 PHASE COMPENSATOR/BEAM
TRANSLATOR 4.4 OBLIQUE INCIDENCE RESULTS 4.5 GOOS-HAENCHEN EFFECT 4.6
SUBWAVELENGTH FOCUSING WITH A CONCAVE DNG LENS 4.7 CONCLUSIONS
REFERENCES VIII CONTENTS 5.3.3 THINLENSES 232 5.4 ABERRATIONS 233 5.4.1
SYSTEM OPTIC ELEMENTS 236 5.4.2 APERTURE STOP AND EXIT PUPIL 236 5.4.3
FOCAL POINTS 237 5.4.4 GENERAL AND REFERENCE RAY 237 5.4.5 OPTICAL
PATH-LENGTH DIFFERENCE 238 5.4.6 EXPAND THE DIFFERENCE 240 5.4.7
EXAMPLE: THINLENSES 241 REFERENCES 247 6 PLANAR ANISOTROPIE
RESONANCE-CONE METAMATERIALS 249 KEITH G. BAIMAIN AND ANDREA A. E.
LUETTGEN 6.1 INTRODUCTION 249 6.2 HOMOGENEOUS ANISOTROPIE-MEDIUM ANALYSIS
250 6.3 FREE-STANDING ANISOTROPIC-GRID METAMATERIAL 254 6.4 ANISOTROPIE
GRID OVER INFINITE GROUND 254 6.5 ANISOTROPIE GRID WITH VERTICAL
INDUCTORS, OVER INFINITE GROUND 257 6.6 CONCLUSIONS 265 REFERENCES 265 7
NEGATIVE REFRACTION AND SUBWAVELENGTH IMAGING IN PHOTONIC CRYSTALS 269
CHIYAN LUO AND JOHN D. JOANNOPOULOS 7.1 INTRODUCTION 269 7.1.1
INTRODUCTION TO PHOTONIC CRYSTALS 270 7.2 NEGATIVE REFRACTION IN
PHOTONIC CRYSTALS 272 7.2.1 ANALYSIS OF REFRACTION IN UNIFORM MATERIALS
272 7.2.2 ANALYSIS OF REFRACTION IN PHOTONIC CRYSTALS 273 7.2.3
DISPERSION CONTOURS OF 2-D PHOTONIC CRYSTALS 276 7.2.4 ALL-ANGLE
NEGATIVE REFRACTION 278 7.2.5 NEGATIVE REFRACTION IN THREE-DIMENSIONALLY
PERIODIC SYS- TEMS 283 7.2.6 CASE OF METALLIC PHOTONIC CRYSTALS 284
7.2.7 SUMMARY 285 7.3 SUBWAVELENGTH IMAGING WITH PHOTONIC CRYSTALS 286
7.3.1 VESELAGO-PENDRY LEFT-HANDED LENS 286 7.3.2 ORIGIN OF NEAR-FIELD
AMPLIFICATION 290 7.3.3 PHOTONIC-CRYSTAL SUPERLENSES 295 7.3.4 NUMERICAL
RESULTS 300 CONTENTS IX 7.3.4.1 SURFACE BAND STRUCTURE 300 7.3.4.2
TRANSMISSION SPECTRUM 301 7.3.5 IMAGE PATTERNS OF A SUPERLENS 302 7.3.6
DISCUSSION 306 7.4 CONCLUSIONS 309 REFERENCES 311 8 PLASMONIC NANOWIRE
METAMATERIALS 313 ANDREY K. SARYCHEV AND VLADIMIR M. SHALAEV 8.1
INTRODUCTION 313 8.2 ELECTRODYNAMICS OF A SINGLE METAL NANOWIRE 314 8.3
CONDUCTING STICK COMPOSITES: EFFECTIVE MEDIUM APPROACH 321 8.4
CONDUCTING STICK COMPOSITES: GIANT ENHANCEMENT OFLOCALFIELDS 324 8.5
MAGNETIC RESPONSE OF CONDUCTING STICK COMPOSITES 328 8.6 PLANAR NANOWIRE
COMPOSITES 330 8.7 CONCLUSIONS 334 REFERENCES 335 9 AN OVERVIEW OF
SALIENT PROPERTIES OF PLANAR GUIDED-WAVE STRUCTURES WITH DOUBLE-NEGATIVE
(DNG) AND SINGLE-NEGATIVE (SNG) LAYERS 339 ANDREA ALU AND NADER ENGHETA
9.1 INTRODUCTION 340 9.2 PARALLEL-PLATE WAVEGUIDES WITH DNG AND SNG
METAMATERIALS 341 9.2.1 LARGE-APERTURE MONOMODAL WAVEGUIDES WITH ENG-MNG
PAIRS 343 9.2.2 WAVEGUIDING IN ULTRA-THIN STRUCTURES WITH LATERAL
DIMENSION BELOW DIFFRACTION LIMITS 346 9.2.3 POWER PROPAGATION IN
DPS-DNG WAVEGUIDES 348 9.3 OPEN SLAB WAVEGUIDES WITH DNG METAMATERIALS
357 9.4 THE CONTRADIRECTIONAL (BACKWARD) COUPLERS 365 REFERENCES 375 10
DISPERSION ENGINEERING: THE USE OF ABNORMAL VELOCITIES AND NEGATIVE
INDEX OF REFRACTION TO CONTROL DISPERSIVE EFFECTS 381 MOHAMMAD MOJAHEDI
AND GEORGE V. ELEFTHERIADES 10.1 INTRODUCTION 381 10.2 ABNORMAL GROUP
VELOCITY 385 10.3 WAVE PROPAGATION IN A SLAB WITH NEGATIVE INDEX OF
REFRACTION 387 10.4 PLTL WITH AN EFFECTIVE NIR AND NEGATIVE GROUP INDEX
392 X CONTENTS 10.4.1 GENERAL THEORY OF PLTL EXHIBITING NEGATIVE PHASE
DELAY 392 10.4.2 FREQUENCY DOMAIN SIMULATIONS 393 10.4.3 FREQUENCY
DOMAIN MEASUREMENTS 397 10.4.4 TIME DOMAIN SIMULATIONS 400 10.4.4.1
NEGATIVE GROUP DELAY 400 10.4.4.2 LUMINAL FRONT VELOCITY 400 10.4.4.3
PHYSICAL MECHANISM UNDERLYING NEGATIVE GROUP DELAY 402 10.4.5
TIME-DOMAIN MEASUREMENTS 404 10.5 CONCLUSIONS 407 REFERENCES 408 INDEX
413 |
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| discipline_str_mv | Physik Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV020837971 |
| illustrated | Illustrated |
| index_date | 2024-07-02T13:15:30Z |
| indexdate | 2024-07-09T20:26:17Z |
| institution | BVB |
| isbn | 9780471601463 0471601462 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014159894 |
| oclc_num | 269411225 |
| open_access_boolean | |
| owner | DE-29T DE-703 DE-19 DE-BY-UBM DE-20 DE-573 DE-91 DE-BY-TUM DE-83 DE-11 DE-91G DE-BY-TUM |
| owner_facet | DE-29T DE-703 DE-19 DE-BY-UBM DE-20 DE-573 DE-91 DE-BY-TUM DE-83 DE-11 DE-91G DE-BY-TUM |
| physical | XV, 418 S. Ill., graph. Darst. 24 cm |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Wiley-Interscience [u.a.] |
| record_format | marc |
| spelling | Negative-refraction metamaterials fundamental principles and applications ed. by G.V. Eleftheriades ; K.G. Balmain Negative refraction metamaterials Hoboken, NJ Wiley-Interscience [u.a.] 2005 XV, 418 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Electromagnetism Magnetic materials Metamaterial (DE-588)7547278-8 gnd rswk-swf Metamaterial (DE-588)7547278-8 s DE-604 Eleftheriades, George V. Sonstige oth Balmain, Keith G. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014159894&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Negative-refraction metamaterials fundamental principles and applications Electromagnetism Magnetic materials Metamaterial (DE-588)7547278-8 gnd |
| subject_GND | (DE-588)7547278-8 |
| title | Negative-refraction metamaterials fundamental principles and applications |
| title_alt | Negative refraction metamaterials |
| title_auth | Negative-refraction metamaterials fundamental principles and applications |
| title_exact_search | Negative-refraction metamaterials fundamental principles and applications |
| title_exact_search_txtP | Negative-refraction metamaterials fundamental principles and applications |
| title_full | Negative-refraction metamaterials fundamental principles and applications ed. by G.V. Eleftheriades ; K.G. Balmain |
| title_fullStr | Negative-refraction metamaterials fundamental principles and applications ed. by G.V. Eleftheriades ; K.G. Balmain |
| title_full_unstemmed | Negative-refraction metamaterials fundamental principles and applications ed. by G.V. Eleftheriades ; K.G. Balmain |
| title_short | Negative-refraction metamaterials |
| title_sort | negative refraction metamaterials fundamental principles and applications |
| title_sub | fundamental principles and applications |
| topic | Electromagnetism Magnetic materials Metamaterial (DE-588)7547278-8 gnd |
| topic_facet | Electromagnetism Magnetic materials Metamaterial |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014159894&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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