Applied microphotonics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
London
Taylor & Francis
2006
|
| Schlagworte: | |
| Online-Zugang: | Publisher description Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index Erscheint: Juli 2006 |
| Beschreibung: | 550 S. |
| ISBN: | 0849340268 |
Internformat
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| 100 | 1 | |a Jamroz, Wes R. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Applied microphotonics |c Wes R. Jamroz, Roman V. Kruzelecky, Emile Haddad |
| 264 | 1 | |a London |b Taylor & Francis |c 2006 | |
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Datensatz im Suchindex
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| adam_text | APPLIED MICROPHOTONIC5 WE5 R. JAIVIRDZ RDIVIAN KRUZELECKY EMILE I.
HADDAD CRC IS AN IMPRINT OF THE TAYLOR & FRANCIS GROUP, AN INFORMA
BUSINESS CONTENTS CHAPTER 1 INTRODUCTION 1 1.1 MICROPHOTONICS: A NEW
BRANCH OF TECHNOLOGY 1 1.2 HISTORICAL PERSPECTIVE 4 1.2.1 PHOTONIC
COMPUTING 7 1.2.2 PHOTONIC-BAND-GAP STRUCTURES 7 1.2.3 QUANTUM PHOTONICS
8 CHAPTER 2 TECHNOLOGICAL GROWTH AND THE MARKET PUSH 11 2.1 LAW OF
GROWTH 11 2.2 MOORE S LAW OF PHOTONICS 14 2.3 MOORE S LAW OF DATA
PROCESSING 16 2.4 GENERAL TREND OF TECHNOLOGICAL GROWTH 19 2.5
TECHNOLOGICAL CHALLENGES 20 2.5.1 SILICON MICROPHOTONICS 21 2.5.2
MICROPHOTONIC INTEGRATED CIRCUITS 22 2.6 NEW GROWTH CYCLE 23 REFERENCES
25 CHAPTER 3 FUNDAMENTALS OF INTERACTION OF LIGHT WITH MATTER 27 3.1
WAVE EQUATION 27 3.2 BAND GAP IN SOLIDS 28 3.3 INDEX OF REFRACTION 31
3.4 POLARIZATION 32 3.5 REFLECTION AND TRANSMISSION 35 3.6 TOTAL
INTERNAL REFLECTION 37 3.7 OPTICAL WAVEGUIDES 38 3.8 DISPERSION IN
DIELECTRICS 40 3.9 DISPERSION IN SEMICONDUCTORS 42 3.10 WAVE PROPAGATION
IN NONLINEAR MEDIA 43 3.11 ELECTROABSORPTION 48 3.12 BRAGG REFLECTION 50
3.13 PHOTONIC-BAND-GAP STRUCTURES 52 3.14 PHOTONIC CRYSTAL FIBERS 57
3.15 STIMULATED EMISSION IN SEMICONDUCTORS 59 3.16 THE SAGNAC EFFECT 61
3.17 EVANESCENT WAVES 63 3.18 SMART THIN-FILM COATINGS 65 3.19 QUANTUM
PHOTONIC EFFECTS 69 3.19.1 QUBITS 70 3.19.2 BELL STATES 72 3.19.3 EPR
CORRELATION 73 3.19.4 QUANTUM GATES 75 3.19.5 QUANTUM CIRCUITS 81 3.19.6
BELL MEASUREMENTS 82 3.20 FABRY-PEROT CAVITIES 85 REFERENCES 87 CHAPTER
4 PHOTONIC NODE 89 4.1 MICROPROCESSOR 89 4.2 COMMUNICATION NODE 90 4.3
MICROPHOTONIC NODE 92 REFERENCES 98 CHAPTER 5 TRANSMITTERS 99 5.1
TRANSMISSION SYSTEMS 99 5.2 OPTICAL SOURCES 100 5.2.1 LEDS 100 5.2.2
LASER DIODES 103 5.2.3 VERTICAL-CAVITY SURFACE-EMITTING LASERS 107 5.2.4
EXTERNAL-CAVITY LASERS 108 5.2.5 TUNABLE LASER MODULES 110 5.2.6 OPTICAL
PULSE GENERATORS 110 5.2.7 FIBER LASERS 111 5.2.8 ALL-SILICON LASERS 112
5.3 MODULATORS 113 5.3.1 EXTERNAL MODULATORS 114 5.3.2 WAVEGUIDE-BASED
MODULATORS 115 5.3.3 SI-BASED WAVEGUIDE MODULATORS 118 5.3.3.1 MODULATOR
BASED ON MOS CONFIGURATION 118 5.3.3.2 MODULATOR BASED ON RING
RESONATORS 121 5.3.3.3 SPATIAL LIGHT MODULATORS 122 REFERENCES 123
CHAPTER 6 COUPLERS AND SWITCHES 125 6.1 COUPLERS AND SPLITTERS 125 6.1.1
SPLITTERS 125 6.1.2 COUPLERS 126 6.1.3 CIRCULATORS 131 6.2 OPTICAL
ISOLATORS 131 6.3 GRAETINGS 133 6.4 WAVEGUIDE COLLIMATORS 135 6.5 TOTAL
INTERNAL REFLECTION T JUNCTION 135 6.6 OPTICAL SWITCHES 136 6.6.1
OPTOMECHANICAL SWITCHES 138 6.6.2 ELECTRO-OPTICAL SWITCHES 138 6.6.3
LIQUID CRYSTALS 139 6.6.4 BUBBLES 140 6.6.5 HOLOGRAPHIE SWITCHES 141
6.6.6 ACOUSTO-OPTICAL SWITCHES 141 6.6.7 TOTAL INTERNAL REFLECTION
SWITCHES 142 6.6.8 THERMO-OPTICAL SWITCHES 143 6.7 MOEMS-BASED SWITCHES
144 6.8 WAVEGUIDE SWITCHES 147 6.9 SOA SWITCHES 148 6.10 WAVEGUIDE
GRAETING ROUTERS 149 6.11 EVANESCENT SWITCHES 149 6.12 OPTICAL CROSS
CONNECTS 151 6.13 HYBRID PBG/MOEMS SWITCHES 153 REFERENCES 156 CHAPTER 7
MULTIPLEXERS 159 7.1 TDM 159 7.2 WDM 160 7.2.1 COARSE
WAVELENGTH-DIVISION MULTIPLEXING 161 7.2.2 DENSE WAVELENGTH-DIVISION
MULTIPLEXING 162 7.3 FILTERS 166 7.3.1 DICHROIC FILTERS 166 7.3.2 FIBER
BRAGG GRAETINGS 166 7.4 RECONFIGURABLE OPTICAL ADD-DROP MULTIPLEXERS 167
REFERENCES 170 CHAPTER 8 RECEIVERS 171 8.1 DETECTORS 171 8.2 PIN
PHOTODIODES 173 8.3 AVALANCHE PHOTODIODES 174 8.4 LIGHT EMITTERS 175 8.5
SILICON-BASED PHOTODETECTORS 175 REFERENCES 177 CHAPTER 9 AMPLIFIERS AND
COMPENSATORS 179 9.1 AMPLIFIER SUBSYSTEMS 179 9.2 SOAS 180 9.3
ERBIUM-DOPED AMPLIFIERS 181 9.3.1 EDFAS 182 9.3.2 EDWAS 187 9.4 ROAS 188
9.5 DYNAMIC GAIN EQUALIZERS 191 9.6 DISPERSION COMPENSATORS 191 9.7
WAVELENGTH CONVERTERS 194 REFERENCES 195 CHAPTER 10 NEW TECHNOLOGIES 197
10.1 MOEMS 197 10.2 PBG STRUCTURES 201 10.2.1 SILICON PBGS 203 10.2.2
HIGH-ORDER PBGS 203 10.3 RING RESONATORS 205 10.4 SMART COATINGS 206
10.4.1 LA,_ X M X MNO N 207 10.4.2 WO, 207 10.4.3 VO N 208 10.5 HYBRID
STRUCTURES 209 REFERENCES 210 CHAPTER 11 MATERIALS, FABRICATION, AND
INTEGRATION 213 11.1 MATERIALS 214 11.1.1 SILICON 214 11.1.2 INGAASP 216
11.1.3 LINBO, 217 11.1.4 SOL-GELS 217 11.2 FABRICATION 218 11.2.1
MULTIPLE-CYCLE SURFACE MICROPROCESSING 218 11.2.1.1 FILMGROWTH 219
11.2.1.2 DOPING 220 11.2.1.3 LITHOGRAPHY 220 11.2.1.4 ETCHING 220
11.2.1.5 SURFACE MICROMACHINING 221 11.2.1.6 LIGA 221 11.2.2 FABRICATION
OF WAVEGUIDES 222 11.2.3 FABRICATION OF PBG STRUCTURES 224 11.2.4
FABRICATION OF EDWA 225 11.2.5 FABRICATION OF MOEMS 226 11.3 INTEGRATION
APPROACHES 230 11.3.1 MICRO-PICS 231 11.3.2 OPTICAL INTERCONNECTS 233
11.3.3 OPTICAL COUPLING 234 11.3.4 WAFER BONDING 237 11.3.5 HYBRID
SILICA/MOEMS 238 11.3.6 HYBRID PBG 239 11.4 FABRICATION OF SMART
COATINGS 239 REFERENCES 243 CHAPTER 12 ADVANCED MICROPHOTONIC DEVICES
245 12.1 PHOTONIC COMPUTER 245 12.1.1 SEEDS 246 12.2 OPTICA] MEMORY
STORAGE DEVICES 246 12.3 PHOTONIC-BAND-GAP SENSORS 249 12.4 CASCADE
LASERS 249 12.5 MINIATURIZED IR SPECTROMETERS 252 12.6 MINIATURE FP
FILTERS 261 12.7 MINIATURE SHUTTER ARRAYS 265 12.7.1 V0 2 -BASED SHUTTER
ARRAYS 270 12.7.2 MEMS SHUTTER ARRAYS 272 12.7.2.1 SHUTTER ARRAYS BASED
ON COMB ELECTRODES 272 12.7.2.2 SHUTTER ARRAYS BASED ON SWEEPING BLADES
273 12.7.2.3 SHUTTER ARRAYS BASED ON ZIPPING ACTUATORS 274 12.8
SUPERPRISM 276 REFERENCES 277 CHAPTER 13 QUANTUM PHOTONIC SYSTEMS 279
13.1 QUANTUM COMMUNICATIONS 279 13.1.1 QUANTUM DENSE CODING 280 13.1.2
TELEPORTING SYSTEM 281 13.2 BUILDING BLOCKS 283 13.2.1 ENTANGLERS 284
13.2.1.1 TIME-BIN QUBIT ENTANGLERS 284 13.2.1.2 POLARIZATION QUBIT
ENTANGLERS 284 13.2.1.3 PPLN-BASED ENTANGLERS 288 13.2.2 MODULATORS 288
13.2.3 DECODERS 290 13.2.4 SINGLE-PHOTON DETECTORS 293 13.2.4.1 APDS 294
13.2.4.2 FREQUENCY UP-CONVERTERS 294 13.2.5 TOMOGRAPHERS 294 13.2.6
QUANTUM NODE 295 13.2.6.1 QUANTUM NODE FOR DENSE CODING 295 13.2.6.2
TELEPORTING NODE 296 13.2.6.3 TIME-BIN QUBIT QUANTUM NODE 298 13.2.6.4
MICROPHOTONIC QUANTUM NODES 299 13.2.7 REPEATERS 302 13.3 QUANTUM
COMPUTERS 303 13.3.1 COMPUTER BUILDING BLOCKS 304 13.3.2 LOQC 305 13.3.3
HOM INTERFEROMETER 306 13.3.4 BEAM SPLITTER ENTANGLER 307 13.3.5 QUANTUM
PARITY CHECKER 308 13.3.6 CNOTGATE 310 13.3.7 TELEPORTATION PHOTONIC
CIRCUIT 316 13.4 QUANTUM CRYPTOGRAPHY 316 REFERENCES 321 CHAPTER 14
FUTURE SYSTEMS AND THEIR APPLICATIONS 323 14.1 MICROPHOTONICS IN SPACE
323 14.2 OPTICAL INTERCONNECTS FOR SPACECRAFT 327 14.3 SATELLITE OPTICAL
COMMUNICATION LINKS 329 14.3.1 DOWNLINK COMMUNICATIONS 338 14.4 QUANTUM
COMMUNICATION LINKS IN SPACE 341 14.5 OPTICAL BEAMFORMERS FOR SAR
ANTENNAS 344 14.5.1 OPTICAL BEAMFORMERS BASED ON BULK OPTICS 349 14.5.2
OPTICAL BEAMFORMING NETWORKS BASED ON FIBER-OPTIC COMPONENTS 350 14.5.3
MICROPHOTONIC BEAMFORMERS 351 14.6 PHOTONIC SENSING SYSTEMS 356 14.6.1
DISTRIBUTED FIBER-OPTIC SENSOR SYSTEMS 357 14.6.2 GYROSCOPES 358 14.7
SATELLITE NAVIGATION SYSTEMS 363 14.8 THERMAL RADIATOR DEVICES 367
14.8.1 MECHANICAL LOUVERS 370 14.8.2 MEMS-BASED LOUVERS 370 14.8.3 SMART
THERMAL RADIATORS 371 14.8.3.1 LA,_ X M X MNO N 371 14.8.3.2 W0 3 371
14.8.3.3 V0 2 -BASED STR 372 14.9 SUNSHIELDS 377 14.9.1 CURRENTLY USED
SUN SHIELDS 379 14.9.2 MICROPHOTONIC SUN SHIELDS 380 REFERENCES 382
CHAPTER 15 CONCLUSION 385 INDEX 387 RELATED TITLES 403
|
| adam_txt |
APPLIED MICROPHOTONIC5 WE5 R. JAIVIRDZ RDIVIAN KRUZELECKY EMILE I.
HADDAD CRC IS AN IMPRINT OF THE TAYLOR & FRANCIS GROUP, AN INFORMA
BUSINESS CONTENTS CHAPTER 1 INTRODUCTION 1 1.1 MICROPHOTONICS: A NEW
BRANCH OF TECHNOLOGY 1 1.2 HISTORICAL PERSPECTIVE 4 1.2.1 PHOTONIC
COMPUTING 7 1.2.2 PHOTONIC-BAND-GAP STRUCTURES 7 1.2.3 QUANTUM PHOTONICS
8 CHAPTER 2 TECHNOLOGICAL GROWTH AND THE MARKET PUSH 11 2.1 LAW OF
GROWTH 11 2.2 MOORE'S LAW OF PHOTONICS 14 2.3 MOORE'S LAW OF DATA
PROCESSING 16 2.4 GENERAL TREND OF TECHNOLOGICAL GROWTH 19 2.5
TECHNOLOGICAL CHALLENGES 20 2.5.1 SILICON MICROPHOTONICS 21 2.5.2
MICROPHOTONIC INTEGRATED CIRCUITS 22 2.6 NEW GROWTH CYCLE 23 REFERENCES
25 CHAPTER 3 FUNDAMENTALS OF INTERACTION OF LIGHT WITH MATTER 27 3.1
WAVE EQUATION 27 3.2 BAND GAP IN SOLIDS 28 3.3 INDEX OF REFRACTION 31
3.4 POLARIZATION 32 3.5 REFLECTION AND TRANSMISSION 35 3.6 TOTAL
INTERNAL REFLECTION 37 3.7 OPTICAL WAVEGUIDES 38 3.8 DISPERSION IN
DIELECTRICS 40 3.9 DISPERSION IN SEMICONDUCTORS 42 3.10 WAVE PROPAGATION
IN NONLINEAR MEDIA 43 3.11 ELECTROABSORPTION 48 3.12 BRAGG REFLECTION 50
3.13 PHOTONIC-BAND-GAP STRUCTURES 52 3.14 PHOTONIC CRYSTAL FIBERS 57
3.15 STIMULATED EMISSION IN SEMICONDUCTORS 59 3.16 THE SAGNAC EFFECT 61
3.17 EVANESCENT WAVES 63 3.18 SMART THIN-FILM COATINGS 65 3.19 QUANTUM
PHOTONIC EFFECTS 69 3.19.1 QUBITS 70 3.19.2 BELL STATES 72 3.19.3 EPR
CORRELATION 73 3.19.4 QUANTUM GATES 75 3.19.5 QUANTUM CIRCUITS 81 3.19.6
BELL MEASUREMENTS 82 3.20 FABRY-PEROT CAVITIES 85 REFERENCES 87 CHAPTER
4 PHOTONIC NODE 89 4.1 MICROPROCESSOR 89 4.2 COMMUNICATION NODE 90 4.3
MICROPHOTONIC NODE 92 REFERENCES 98 CHAPTER 5 TRANSMITTERS 99 5.1
TRANSMISSION SYSTEMS 99 5.2 OPTICAL SOURCES 100 5.2.1 LEDS 100 5.2.2
LASER DIODES 103 5.2.3 VERTICAL-CAVITY SURFACE-EMITTING LASERS 107 5.2.4
EXTERNAL-CAVITY LASERS 108 5.2.5 TUNABLE LASER MODULES 110 5.2.6 OPTICAL
PULSE GENERATORS 110 5.2.7 FIBER LASERS 111 5.2.8 ALL-SILICON LASERS 112
5.3 MODULATORS 113 5.3.1 EXTERNAL MODULATORS 114 5.3.2 WAVEGUIDE-BASED
MODULATORS 115 5.3.3 SI-BASED WAVEGUIDE MODULATORS 118 5.3.3.1 MODULATOR
BASED ON MOS CONFIGURATION 118 5.3.3.2 MODULATOR BASED ON RING
RESONATORS 121 5.3.3.3 SPATIAL LIGHT MODULATORS 122 REFERENCES 123
CHAPTER 6 COUPLERS AND SWITCHES 125 6.1 COUPLERS AND SPLITTERS 125 6.1.1
SPLITTERS 125 6.1.2 COUPLERS 126 6.1.3 CIRCULATORS 131 6.2 OPTICAL
ISOLATORS 131 6.3 GRAETINGS 133 6.4 WAVEGUIDE COLLIMATORS 135 6.5 TOTAL
INTERNAL REFLECTION T JUNCTION 135 6.6 OPTICAL SWITCHES 136 6.6.1
OPTOMECHANICAL SWITCHES 138 6.6.2 ELECTRO-OPTICAL SWITCHES 138 6.6.3
LIQUID CRYSTALS 139 6.6.4 BUBBLES 140 6.6.5 HOLOGRAPHIE SWITCHES 141
6.6.6 ACOUSTO-OPTICAL SWITCHES 141 6.6.7 TOTAL INTERNAL REFLECTION
SWITCHES 142 6.6.8 THERMO-OPTICAL SWITCHES 143 6.7 MOEMS-BASED SWITCHES
144 6.8 WAVEGUIDE SWITCHES 147 6.9 SOA SWITCHES 148 6.10 WAVEGUIDE
GRAETING ROUTERS 149 6.11 EVANESCENT SWITCHES 149 6.12 OPTICAL CROSS
CONNECTS 151 6.13 HYBRID PBG/MOEMS SWITCHES 153 REFERENCES 156 CHAPTER 7
MULTIPLEXERS 159 7.1 TDM 159 7.2 WDM 160 7.2.1 COARSE
WAVELENGTH-DIVISION MULTIPLEXING 161 7.2.2 DENSE WAVELENGTH-DIVISION
MULTIPLEXING 162 7.3 FILTERS 166 7.3.1 DICHROIC FILTERS 166 7.3.2 FIBER
BRAGG GRAETINGS 166 7.4 RECONFIGURABLE OPTICAL ADD-DROP MULTIPLEXERS 167
REFERENCES 170 CHAPTER 8 RECEIVERS 171 8.1 DETECTORS 171 8.2 PIN
PHOTODIODES 173 8.3 AVALANCHE PHOTODIODES 174 8.4 LIGHT EMITTERS 175 8.5
SILICON-BASED PHOTODETECTORS 175 REFERENCES 177 CHAPTER 9 AMPLIFIERS AND
COMPENSATORS 179 9.1 AMPLIFIER SUBSYSTEMS 179 9.2 SOAS 180 9.3
ERBIUM-DOPED AMPLIFIERS 181 9.3.1 EDFAS 182 9.3.2 EDWAS 187 9.4 ROAS 188
9.5 DYNAMIC GAIN EQUALIZERS 191 9.6 DISPERSION COMPENSATORS 191 9.7
WAVELENGTH CONVERTERS 194 REFERENCES 195 CHAPTER 10 NEW TECHNOLOGIES 197
10.1 MOEMS 197 10.2 PBG STRUCTURES 201 10.2.1 SILICON PBGS 203 10.2.2
HIGH-ORDER PBGS 203 10.3 RING RESONATORS 205 10.4 SMART COATINGS 206
10.4.1 LA,_ X M X MNO N 207 10.4.2 WO, 207 10.4.3 VO N 208 10.5 HYBRID
STRUCTURES 209 REFERENCES 210 CHAPTER 11 MATERIALS, FABRICATION, AND
INTEGRATION 213 11.1 MATERIALS 214 11.1.1 SILICON 214 11.1.2 INGAASP 216
11.1.3 LINBO, 217 11.1.4 SOL-GELS 217 11.2 FABRICATION 218 11.2.1
MULTIPLE-CYCLE SURFACE MICROPROCESSING 218 11.2.1.1 FILMGROWTH 219
11.2.1.2 DOPING 220 11.2.1.3 LITHOGRAPHY 220 11.2.1.4 ETCHING 220
11.2.1.5 SURFACE MICROMACHINING 221 11.2.1.6 LIGA 221 11.2.2 FABRICATION
OF WAVEGUIDES 222 11.2.3 FABRICATION OF PBG STRUCTURES 224 11.2.4
FABRICATION OF EDWA 225 11.2.5 FABRICATION OF MOEMS 226 11.3 INTEGRATION
APPROACHES 230 11.3.1 MICRO-PICS 231 11.3.2 OPTICAL INTERCONNECTS 233
11.3.3 OPTICAL COUPLING 234 11.3.4 WAFER BONDING 237 11.3.5 HYBRID
SILICA/MOEMS 238 11.3.6 HYBRID PBG 239 11.4 FABRICATION OF SMART
COATINGS 239 REFERENCES 243 CHAPTER 12 ADVANCED MICROPHOTONIC DEVICES
245 12.1 PHOTONIC COMPUTER 245 12.1.1 SEEDS 246 12.2 OPTICA] MEMORY
STORAGE DEVICES 246 12.3 PHOTONIC-BAND-GAP SENSORS 249 12.4 CASCADE
LASERS 249 12.5 MINIATURIZED IR SPECTROMETERS 252 12.6 MINIATURE FP
FILTERS 261 12.7 MINIATURE SHUTTER ARRAYS 265 12.7.1 V0 2 -BASED SHUTTER
ARRAYS 270 12.7.2 MEMS SHUTTER ARRAYS 272 12.7.2.1 SHUTTER ARRAYS BASED
ON COMB ELECTRODES 272 12.7.2.2 SHUTTER ARRAYS BASED ON SWEEPING BLADES
273 12.7.2.3 SHUTTER ARRAYS BASED ON ZIPPING ACTUATORS 274 12.8
SUPERPRISM 276 REFERENCES 277 CHAPTER 13 QUANTUM PHOTONIC SYSTEMS 279
13.1 QUANTUM COMMUNICATIONS 279 13.1.1 QUANTUM DENSE CODING 280 13.1.2
TELEPORTING SYSTEM 281 13.2 BUILDING BLOCKS 283 13.2.1 ENTANGLERS 284
13.2.1.1 TIME-BIN QUBIT ENTANGLERS 284 13.2.1.2 POLARIZATION QUBIT
ENTANGLERS 284 13.2.1.3 PPLN-BASED ENTANGLERS 288 13.2.2 MODULATORS 288
13.2.3 DECODERS 290 13.2.4 SINGLE-PHOTON DETECTORS 293 13.2.4.1 APDS 294
13.2.4.2 FREQUENCY UP-CONVERTERS 294 13.2.5 TOMOGRAPHERS 294 13.2.6
QUANTUM NODE 295 13.2.6.1 QUANTUM NODE FOR DENSE CODING 295 13.2.6.2
TELEPORTING NODE 296 13.2.6.3 TIME-BIN QUBIT QUANTUM NODE 298 13.2.6.4
MICROPHOTONIC QUANTUM NODES 299 13.2.7 REPEATERS 302 13.3 QUANTUM
COMPUTERS 303 13.3.1 COMPUTER BUILDING BLOCKS 304 13.3.2 LOQC 305 13.3.3
HOM INTERFEROMETER 306 13.3.4 BEAM SPLITTER ENTANGLER 307 13.3.5 QUANTUM
PARITY CHECKER 308 13.3.6 CNOTGATE 310 13.3.7 TELEPORTATION PHOTONIC
CIRCUIT 316 13.4 QUANTUM CRYPTOGRAPHY 316 REFERENCES 321 CHAPTER 14
FUTURE SYSTEMS AND THEIR APPLICATIONS 323 14.1 MICROPHOTONICS IN SPACE
323 14.2 OPTICAL INTERCONNECTS FOR SPACECRAFT 327 14.3 SATELLITE OPTICAL
COMMUNICATION LINKS 329 14.3.1 DOWNLINK COMMUNICATIONS 338 14.4 QUANTUM
COMMUNICATION LINKS IN SPACE 341 14.5 OPTICAL BEAMFORMERS FOR SAR
ANTENNAS 344 14.5.1 OPTICAL BEAMFORMERS BASED ON BULK OPTICS 349 14.5.2
OPTICAL BEAMFORMING NETWORKS BASED ON FIBER-OPTIC COMPONENTS 350 14.5.3
MICROPHOTONIC BEAMFORMERS 351 14.6 PHOTONIC SENSING SYSTEMS 356 14.6.1
DISTRIBUTED FIBER-OPTIC SENSOR SYSTEMS 357 14.6.2 GYROSCOPES 358 14.7
SATELLITE NAVIGATION SYSTEMS 363 14.8 THERMAL RADIATOR DEVICES 367
14.8.1 MECHANICAL LOUVERS 370 14.8.2 MEMS-BASED LOUVERS 370 14.8.3 SMART
THERMAL RADIATORS 371 14.8.3.1 LA,_ X M X MNO N 371 14.8.3.2 W0 3 371
14.8.3.3 V0 2 -BASED STR 372 14.9 SUNSHIELDS 377 14.9.1 CURRENTLY USED
SUN SHIELDS 379 14.9.2 MICROPHOTONIC SUN SHIELDS 380 REFERENCES 382
CHAPTER 15 CONCLUSION 385 INDEX 387 RELATED TITLES 403 |
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| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV021675893 |
| illustrated | Not Illustrated |
| index_date | 2024-07-02T15:10:03Z |
| indexdate | 2024-07-09T20:41:24Z |
| institution | BVB |
| isbn | 0849340268 |
| language | English |
| lccn | 2006044469 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014890178 |
| oclc_num | 266153727 |
| open_access_boolean | |
| owner | DE-1043 |
| owner_facet | DE-1043 |
| physical | 550 S. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Taylor & Francis |
| record_format | marc |
| spelling | Jamroz, Wes R. Verfasser aut Applied microphotonics Wes R. Jamroz, Roman V. Kruzelecky, Emile Haddad London Taylor & Francis 2006 550 S. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Erscheint: Juli 2006 Photonics Materials Photonik (DE-588)4243979-6 gnd rswk-swf Photonik (DE-588)4243979-6 s DE-604 http://www.loc.gov/catdir/enhancements/fy0648/2006044469-d.html Publisher description GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014890178&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Jamroz, Wes R. Applied microphotonics Photonics Materials Photonik (DE-588)4243979-6 gnd |
| subject_GND | (DE-588)4243979-6 |
| title | Applied microphotonics |
| title_auth | Applied microphotonics |
| title_exact_search | Applied microphotonics |
| title_exact_search_txtP | Applied microphotonics |
| title_full | Applied microphotonics Wes R. Jamroz, Roman V. Kruzelecky, Emile Haddad |
| title_fullStr | Applied microphotonics Wes R. Jamroz, Roman V. Kruzelecky, Emile Haddad |
| title_full_unstemmed | Applied microphotonics Wes R. Jamroz, Roman V. Kruzelecky, Emile Haddad |
| title_short | Applied microphotonics |
| title_sort | applied microphotonics |
| topic | Photonics Materials Photonik (DE-588)4243979-6 gnd |
| topic_facet | Photonics Materials Photonik |
| url | http://www.loc.gov/catdir/enhancements/fy0648/2006044469-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014890178&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT jamrozwesr appliedmicrophotonics |