Verfügbarkeit: Fiber-optic communications

Fiber-optic communications:

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Bibliographische Detailangaben
1. Verfasser:	Lecoy, Pierre (VerfasserIn)
Format:	Buch
Sprache:	English French
Veröffentlicht:	London ISTE [u.a.] 2008
Schlagworte:	Optical fiber communication Optische Nachrichtenübertragung
Online-Zugang:	Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	XXVII, 333 S. Ill., graph. Darst.
ISBN:	9781848210493 1848210493

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Datensatz im Suchindex

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adam_text	IMAGE 1 FIBER-OPTIC COMMUNICATIONS PIERRE LECOY I S T^ WILEY IMAGE 2 TABLE OF CONTENTS FOREWORD XVII INTRODUCTION XXI CHAPTER 1. MULTIMODE OPTICAL FIBERS 1 1.1. OVERVIEW OF OPTICS 1 1.1.1. INTRODUCTION 1 1.1.2. PROPAGATION OF HARMONIC PLANE WAVES 1 1.1.3. LIGHT RAYS 3 1.1.4. DIELECTRIC DIOPTER 4 1.1.5. REFLECTION OF A PLANE WAVE ON A DIOPTER 6 1.1.6. REFLECTION COEFFICIENT 7 1.1.7. TOTAL REFLECTION 8 1.2. DIELECTRIC WAVEGUIDE 10 1.2.1. PLANAR DIELECTRIC WAVEGUIDE MODEL 10 1.2.2. NOTION OF PROPAGATION MODES 11 1.2.3. CASE OF THE ASYMMETRIC GUIDE 13 1.2.4. DISPERSION 14 1.3. MULTIMODE OPTICAL FIBERS 15 1.3.1. DEFINITION 15 1.3.2. MULTIMODE STEP-INDEX FIBER 15 1.3.3. MULTIMODE GRADED-INDEX FIBER 17 1.4. PROPAGATION IN MULTIMODE OPTICAL FIBERS 18 1.4.1. RAY PATHS 18 1.4.2. PROPAGATION EQUATION RESOLUTION 19 1.4.3. DIFFERENT RAY TYPES 20 1.4.3.1. MERIDIONAL RAYS 20 1.4.3.2. SKEW RAYS 21 1.4.4. MODES OF PROPAGATION 22 IMAGE 3 VIII FIBER-OPTIC COMMUNICATIONS 1.5. DISPERSION IN MULTIMODE OPTICAL FIBERS 23 1.5.1. INTERMODAL DISPERSION 23 1.5.2. PULSE BROADENING CALCULATION 23 1.5.2.1. IN STEP-INDEX FIBERS 23 1.5.2.2. IN GRADED-INDEX FIBERS 25 1.5.3. CHROMATIC DISPERSION 26 1.5.4. TIME-DOMAIN RESPONSE OF MULTIMODE FIBERS 27 1.5.5. MULTIMODE FIBER BANDWIDTH 28 1.5.6. MODE COUPLING 29 1.5.7. MODAL NOISE 31 1.6. APPENDIX: DETAIL OF CALCULATION IN SECTION 1.4.2 31 CHAPTER 2. SINGLE-MODE OPTICAL FIBERS 33 2.1. FIBEROPTIC FIELD CALCULATION 33 2.1.1. ELECTROMAGNETIC EQUATIONS 33 2.1.2. SOLUTION FOR STEP-INDEX FIBER OPTICS 35 2.1.2.1. GENERAL FORM 35 2.1.2.2. TRANSVERSE COMPONENTS 35 2.1.3. MODE CALCULATION METHOD 36 2.1.4. NATURE OF MODES 37 2.1.4.1. TRANSVERSE MODES 37 2.1.4.2. HYBRID MODES 37 2.1.5. CUT-OFF FREQUENCY 38 2.1.6. ASPECT OF MODES 40 2.2. SINGLE-MODE FIBER CHARACTERISTICS 42 2.2.1. SINGLE-MODE PROPAGATION CONDITION 42 2.2.2. GAUSSIAN SINGLE-MODE FIBER MODEL 42 2.2.3. SINGLE-MODE FIBER PARAMETERS 44 2.3. DISPERSION IN SINGLE-MODE FIBERS 44 2.3.1. CHROMATIC DISPERSION 44 2.3.2. PRACTICAL CALCULATION 46 2.3.3. CANCELLATION OF CHROMATIC DISPERSION 47 2.3.4. DEPRESSED INNER CLADDING FIBERS 48 2.3.5. DIFFERENT TYPES OF SINGLE-MODE FIBERS 49 2.3.5.1. STANDARD FIBER 49 2.3.5.2. DISPERSION SHIFTED FIBER 50 2.3.5.3. NON-ZERO DISPERSION SHIFTED FIBER 50 2.3.6. CHROMATIC DISPERSION COMPENSATION 51 2.4. POLARIZATION EFFECTS IN SINGLE-MODE FIBERS 51 2.4.1. BIREFRINGENCE OF OPTICAL FIBERS 51 2.4.2. INDUCED BIREFRINGENCE 52 2.4.3. POLARIZATION DISPERSION 53 2.5. NON-LINEAR EFFECTS IN OPTICAL FIBERS 54 IMAGE 4 TABLE OF CONTENTS IX 2.5.1. INTRODUCTION 54 2.5.2. RAMAN SCATTERING 55 2.5.3. BRILLOUIN SCATTERING 56 2.5.4. KERR EFFECT 57 2.5.5. CONSEQUENCES OF THE KERR EFFECT 58 2.5.6. SOLITON PROPAGATION 59 2.5.6.1. DESCRIPTION 59 2.5.6.2. SOLITON EQUATION 59 2.5.6.3. SOLITON TRANSMISSION SYSTEMS 60 2.6. MICROSTRUCTURED (PHOTONIC) OPTICAL FIBERS 61 2.6.1. INTRODUCTION 61 2.6.2. PHOTONIC BANDGAP 63 2.6.3. PHOTONIC WAVEGUIDES 64 2.6.4. PHOTONIC CRYSTAL FIBERS 65 2.6.5. HOLLOW FIBERS 66 CHAPTER 3. FIBER OPTICS TECHNOLOGY AND IMPLEMENTATION 69 3.1. OPTICAL FIBER MATERIALS AND ATTENUATION 69 3.1.1. DIFFERENT TYPES OF OPTICAL FIBERS 69 3.1.2. INTRINSIC ATTENUATION OF SILICA FIBERS 69 3.1.3. PLASTIC FIBERS 72 3.1.4. OTHER MATERIALS 73 3.1.5. TRANSMISSION WINDOWS 74 3.2. MANUFACTURING OF OPTICAL FIBERS 76 3.2.1. PRINCIPLES 76 3.2.2. MANUFACTURING OF PREFORMS BY MCVD PROCESS 77 3.2.3. PREFORM MANUFACTURING BY EXTERNAL DEPOSIT 78 3.2.4. DRAWING 79 3.2.5. MECHANICAL RESISTANCE 80 3.3. OPTICAL FIBER CABLES AND CONNECTIONS 81 3.3.1. PRINCIPLE OF OPTICAL FIBER CABLES 81 3.3.2. DIFFERENT CABLE TYPES 81 33.2. TIFIJIT STRUCTURE CABLES * * V * * , * * * * * * V V V * * * 8* 3.3.2.2. FREE STRUCTURE CABLES 82 3.3.2.3. COMPACT STRUCTURE CABLES 83 3.3.2.4. AERIAL CABLES 83 3.3.2.5. SUBMARINE CABLES 83 3.3.3. CONNECTION OF OPTICAL FIBERS 84 3.3.4. OPTICAL CONNECTORS 85 3.3.4.1. DESCRIPTION 85 3.3.4.2. ANTI-REFLECTION CONNECTORS 86 3.3.4.3. DIFFERENT CONNECTOR TYPES 87 3.4. EXTRINSIC FIBEROPTIC LOSSES 88 IMAGE 5 X FIBER-OPTIC COMMUNICATIONS 3.4.1. LOSSES BY BENDING 88 3.4.2. LOSSES AT CONNECTIONS 89 3.4.2.1. CAUSES OF LOSSES 89 3.4.2.2. CALCULATION INMULTIMODE FIBERS 90 3.4.2.3. CALCULATION IN SINGLE-MODE FIBERS 91 3.4.3. FIBER OPTICS OPTIMIZATION 91 3.5. OPTICAL FIBER MEASUREMENTS 93 3.5.1. CLASSIFICATION 93 3.5.2. GEOMETRIC MEASUREMENTS FORMULTIMODE FIBERS 93 3.5.3. MEASUREMENTS OF SINGLE-MODE FIBERS PARAMETERS 94 3.5.4. SPECTRAL ATTENUATION MEASUREMENT 94 3.5.5. REFLECTOMETRY MEASUREMENT 95 3.5.5.1. PRINCIPLE 95 3.5.5.2. POWER RECEIVED 96 3.5.5.3. REFLECTOMETRY CURVE INTERPRETATION 97 3.5.5.4. DYNAMICS 98 3.5.6. BANDWIDTH MEASUREMENT 99 3.5.7. CHROMATIC DISPERSION MEASUREMENT 100 3.5.8. POLARIZATION MEASUREMENTS 101 CHAPTER 4. INTEGRATED OPTICS 103 4.1. PRINCIPLES 103 4.1.1. INTRODUCTION: CLASSIFICATION OF COMPONENTS 103 4.1.2. TECHNOLOGIES USED 103 4.1.3. INTEGRATED OPTICS PLANAR GUIDES 105 4.1.4. LATERAL GUIDING 105 4.1.5. LOSSES IN GUIDES 107 4.2. MODE COUPLING AND ITS APPLICATIONS 107 4.2.1. FORMALIZATION 108 4.2.2. COUPLING WITHIN A SINGLE GUIDE 108 4.2.3. COUPLING BETWEEN MATCHED GUIDES 110 4.2.4. COUPLING BETWEEN MISMATCHED GUIDES I LL 4.3. DIFFRACTION GRATINGS 112 4.3.1. PRINCIPLE 112 4.3.2. OPERATION 113 4.3.3. APPLICATION TO LIGHT COUPLING IN A GUIDE 114 4.3.4. BRAGG GRATING PRINCIPLE 116 4.3.5. BRAGG GRATINGS IN INTEGRATED OPTICS 116 4.3.6. PHOTO-INSCRIBED BRAGG GRATINGS IN OPTICAL FIBERS 118 4.3.6.1. PRINCIPLE 118 4.3.6.2. BRAGG GRATING FILTERS 118 4.3.6.3. CHIRPED BRAGG GRATINGS 119 IMAGE 6 TABLE OF CONTENTS XI CHAPTER 5. OPTICAL COMPONENTS 121 5.1. PASSIVE NON-SELECTIVE OPTICAL COMPONENTS 121 5.1.1. DEFINITIONS 121 5.1.2. OPTICAL COUPLERS 122 5.1.3. ISOLATORS AND CIRCULATORS 124 5.1.4. OPTICAL ATTENUATORS 125 5.2. WAVELENGTH DIVISION MULTIPLEXERS 125 5.2.1. DIFFERENT TYPES OF WAVELENGTH DIVISION MULTIPLEXING 125 5.2.2. FILTER MULTIPLEXERS 126 5.2.3. COUPLER-TYPE MULTIPLEXERS 127 5.2.4. DENSE WAVELENGTH DIVISION MULTIPLEXING 127 5.2.5. ADD-DROP MULTIPLEXING 129 5.3. ACTIVE OPTICAL COMPONENTS 129 5.3.1. PRINCIPLES 129 5.3.2. ELECTRO-OPTIC EFFECT 130 5.3.3. DIRECTIONAL ELECTRO-OPTIC COUPLER 131 5.3.4. ELECTRO-OPTIC MODULATOR 133 5.3.5. ELECTRO-ABSORPTION MODULATOR 134 5.4. FIBEROPTIC SWITCHES 135 5.4.1. FUNCTIONS 135 5.4.2. SWITCHING TECHNOLOGIES 136 5.4.3. EXAMPLE OF MICRO ELECTRO-MECHANICAL SWITCHING MATRICES 137 5.4.4. RECONFIGURABLE OPTICAL ADD-DROP MULTIPLEXERS (ROADM) 139 CHAPTER 6. OPTOELECTRONIC TRANSMITTERS 141 6.1. PRINCIPLES OF OPTOELECTRONIC COMPONENTS 141 6.1.1. ELECTROLUMINESCENCE PRINCIPLE 141 6.1.2. ELECTROLUMINESCENT MATERIAL 143 6.1.3. PHOTODETECTION PRINCIPLE 145 6.1.4. HETEROJUNCTION USE 146 6.1.5. QUANTUM WELL STRUCTURES 147 6.1.6. OPTICAL AMPLIFICATION PRINCIPLES 148 6.2. LIGHT-EMITTING DIODES (LED) 150 6.2.1. STRUCTURE 150 6.2.2. MAIN LIGHT EMITTING DIODE CHARACTERISTICS 151 6.2.3. LIGHT-EMITTING DIODE TRANSMITTERS 152 6.2.4. OTHER TYPES OF LIGHT EMITTING DIODES 152 6.3. LASER DIODES 152 6.3.1. PRINCIPLE 152 6.3.2. FABRY-PEROT STRUCTURE LASER DIODES 154 6.3.3. DFB LASER DIODES 155 6.3.4. LATERAL GUIDING IN LASER DIODES 156 6.3.5. WAVELENGTH-TUNABLE LASER DIODES 157 IMAGE 7 XII FIBER-OPTIC COMMUNICATIONS 6.3.6. VERTICAL CAVITY SURFACE EMITTING LASERS (VCSEL) 159 6.4. OPTICAL TRANSMITTER INTERFACE 160 6.4.1. DESCRIPTION 160 6.4.2. LASER DIODE CHARACTERISTIC 160 6.4.3. LASER DIODE MODULATION 161 6.4.4. TRANSMITTER NOISE 162 6.4.5. LASER DIODE EMISSION MODULE 163 6.4.5.1. CONTROL 163 6.4.5.2. MOUNTING IN THE OPTICAL HEAD 163 6.5. COMPARISON BETWEEN OPTOELECTRONIC EMITTERS 165 CHAPTER 7. OPTOELECTRONIC RECEIVERS 167 7.1. PHOTODETECTORS 167 7.1.1. PIN PHOTODIODE 167 7.1.2. PHOTODIODE CHARACTERISTICS 168 7.1.3. AVALANCHE PHOTODIODE 169 7.1.4. MATERIALS USED IN PHOTODETECTION 171 7.1.5. PHOTOTRANSISTOR 173 7.2. OPTICAL RECEIVING INTERFACE 174 7.2.1. STRUCTURE 174 7.2.2. PHOTODIODE NOISE 175 7.2.2.1. IN PIN PHOTODIODES 175 7.2.2.2. IN AVALANCHE PHOTODIODES 175 7.2.3. OPTICAL RECEIVER MODELING 176 7.2.4. NOISE CURRENT CALCULATION 177 7.2.5. CALCULATION OF THE SIGNAL-TO-NOISE RATIO 179 7.2.6. OPTIMIZATION OF THE SIGNAL-TO-NOISE RATIO 180 7.3. OTHER PHOTODETECTION SCHEMAS 182 7.3.1. HETERODYNE DETECTION 182 7.3.2. BALANCED DETECTION 183 CHAPTER 8. OPTICAL AMPLIFICATION 185 8.1. OPTICAL AMPLIFICATION IN DOPED FIBER 185 8.1.1. INTRODUCTION 185 8.1.2. OPTICAL AMPLIFICATION PRINCIPLE IN ERBIUM-DOPED FIBERS 186 8.1.3. OPTICAL AMPLIFICATION GAIN 187 8.1.4. AMPLIFIED SIGNAL POWER 188 8.1.5. OPTICAL AMPLIFICATION NOISE 190 8.2. ERBIUM-DOPED FIBER AMPLIFIERS 191 8.2.1. DESCRIPTION 191 8.2.2. CHARACTERISTICS 192 8.2.3. GAIN PARAMETERS OF AN OPTICAL AMPLIFIER 193 IMAGE 8 TABLE OF CONTENTS XIII 8.2.4. AMPLIFIED BANDWIDTH 194 8.2.5. NOISE FIGURE 195 8.3. NOISE CALCULATION IN AMPLIFIED LINKS 195 8.3.1. INPUT NOISE IN THE PRESENCE OF AN OPTICAL AMPLIFIER 195 8.3.2. CASE OF AN OPTICAL PREAMPLIFIER RECEIVER 197 8.3.3. NOISE CALCULATION OVER LONG LINKS 198 8.4. OTHER TYPES OF OPTICAL AMPLIFIERS 199 8.4.1. SEMICONDUCTOR OPTICAL AMPLIFIERS (SCOA) 199 8.4.2. OTHER SCOA APPLICATIONS 200 8.4.3. AMPLIFIER COMPARISON 201 8.4.4. RAMAN AMPLIFICATION 201 CHAPTER 9. FIBER-OPTIC TRANSMISSION SYSTEMS 203 9.1. STRUCTURE OF A FIBER-OPTIC DIGITAL LINK 203 9.1.1. DIFFERENT SYSTEMS 203 9.1.2. LONG-HAUL LINKS OVER OPTICAL FIBERS 204 9.1.3. LINE TERMINALS 205 9.1.4. LINE CODES 206 9.1.5. COHERENT OPTICAL TRANSMISSIONS 207 9.2. DIGITAL LINK DESIGN 209 9.2.1. FILTERING 209 9.2.2. CHOICE OF FIBER BANDWIDTH 209 9.2.3. CALCULATION OF THE ERROR PROBABILITY 210 9.2.4. CALCULATION OF THE AVERAGE POWER REQUIRED IN RECEPTION 212 9.2.5. QUANTUM LIMIT 213 9.2.6. LOSS BUDGET 214 9.3. DIGITAL LINK CATEGORIES 215 9.3.1. POINT-TO-POINT, NON-AMPLIFIED LINES 215 9.3.2. OPTICALLY AMPLIFIED LINKS 217 9.3.3. WAVELENGTH DIVISION MULTIPLEXED LINKS 218 9.3.4. DISPERSION EFFECTS 219 9.3.5. NEW MODULATION FORMATS 221 9.3.5.1. DUOBINARY MODULATIONS 221 9.3.5.2. PHASE MODULATIONS 222 9.3.6. FIBER-OPTIC SUBMARINE LINKS 223 9.4. FIBER-OPTIC ANALOG TRANSMISSIONS 225 9.4.1. ANALOG BASEBAND TRANSMISSION 225 9.4.1.1. PRINCIPLE 225 9.4.1.2. LINK CALCULATION 226 9.4.2. TRANSMISSION BY FREQUENCY MODULATION OF A SUB-CARRIER 227 9.4.3. TRANSMISSION OF MEASUREMENT SIGNALS 227 IMAGE 9 XIV FIBER-OPTIC COMMUNICATIONS 9.5 MICROWAVE OVER FIBER OPTICS LINKS 228 9.5.1. PRINCIPLE AND APPLICATIONS 228 9.5.2. DIFFERENT PROCESSES 229 9.5.3. SINGLE-SIDE BAND TRANSMISSION 230 CHAPTER 10. FIBER-OPTIC NETWORKS 233 10.1. COMPUTER NETWORKS 233 10.1.1. INTRODUCTION 233 10.1.2. PASSIVE OPTICAL NETWORKS 234 10.1.3. DESIGN OF A PASSIVE NETWORK 235 10.1.4. ETHERNET LOCAL AREA NETWORKS 236 10.1.4.1. INTRODUCTION TO ETHERNET 236 10.1.4.2. FIBEROPTIC ETHERNET 237 10.1.4.3. ETHERNET ARCHITECTURES 237 10.1.5. FDDI NETWORK 239 10.1.6. FIBER CHANNEL 240 10.2. ACCESS NETWORKS 242 10.2.1. OVERVIEW 242 10.2.2. DIFFERENT FTTX ARCHITECTURES 243 10.2.3. PASSIVE OPTICAL NETWORKS (PON) 245 10.2.4. PON OPERATION 246 10.3. WIDE AREA NETWORKS 247 10.3.1. SDH/SONET HIERARCHY SYSTEMS 247 10.3.2. CONSTITUTION OF SYNCHRONOUS DIGITAL HIERARCHY FRAMES 249 10.3.3. SDH RINGS 251 10.3.4. OPTICAL CROSS-CONNECT 252 10.3.5. OPTICAL TRANSPORT NETWORK (OTN) 253 10.3.6. THE OPTICAL OTN LAYER 255 10.4. TOWARD ALL OPTICAL NETWORKS 256 10.4.1. WAVELENGTH DIVISION MULTIPLEXED NETWORKS 256 10.4.2. WAVELENGTH ROUTING 256 10.4.3. ALL OPTICAL NETWORK ARCHITECTURES 258 10.4.4. MPLS PROTOCOLS 259 10.4.5. TRENDS 261 CHAPTER 11. FIBER-OPTIC SENSORS AND INSTRUMENTATION 263 11.1. FIBER OPTICS IN INSTRUMENTATION 263 11.1.1. INTRODUCTION 263 11.1.2. USE OF FIBER OPTICS IN INSTRUMENTATION 264 11.1.3. FIBER-OPTIC MEASUREMENT INSTRUMENTATION 264 11.1.4. FIBER-OPTIC SENSOR CLASSIFICATION 266 11.2. NON-COHERENT FIBER-OPTIC SENSORS 266 11.2.1. GEOMETRIC AND MECHANICAL SIZE SENSORS 266 IMAGE 10 TABLE OF CONTENTS XV 11.2.2. BENDING OR MICRO-BENDING SENSORS 268 11.2.3. TEMPERATURE EXTRINSIC SENSORS 268 11.2.4. INTRINSIC NON-COHERENT SENSORS 269 11.3. INTERFEROMETRIC SENSORS 270 11.3.1. OVERVIEW 270 11.3.2. TWO ARM INTERFEROMETERS 270 11.3.2.1. MACH-ZEHNDER INTERFEROMETER 270 11.3.2.2. MICHELSON INTERFEROMETER 271 11.3.3. INTERMODAL INTERFEROMETRY 272 11.3.4. ONE FIBER INTERFEROMETERS 273 11.3.4.1. FABRY-PEROT INTERFEROMETER 273 11.3.4.2. BRAGG GRATING SENSOR 273 11.3.5. RING (OR SAGNAC) INTERFEROMETERS 274 11.3.5.1. OPTICAL FIBER GYROSCOPE 274 11.3.5.2. FIBER-OPTIC CURRENT SENSOR 275 11.3.6. POLARIMETRIE SENSORS 275 11.4. FIBER OPTIC SENSOR NETWORKS 276 11.4.1. DISTRIBUTED SENSORS 276 11.4.2. TIME-DIVISION MULTIPLEXING 277 11.4.3. WAVELENGTH DIVISION MULTIPLEXING 278 11.4.4. COHERENCE MULTIPLEXING 278 EXERCISES 281 BIBLIOGRAPHY 325 INDEX 329
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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id	DE-604.BV036755407
illustrated	Illustrated
indexdate	2024-07-09T22:47:22Z
institution	BVB
isbn	9781848210493 1848210493
language	English French
lccn	2008019705
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-020672590
oclc_num	636067237
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	XXVII, 333 S. Ill., graph. Darst.
publishDate	2008
publishDateSearch	2008
publishDateSort	2008
publisher	ISTE [u.a.]
record_format	marc
spelling	Lecoy, Pierre Verfasser aut Télécoms sur fibres optiques Fiber-optic communications Pierre Lecoy London ISTE [u.a.] 2008 XXVII, 333 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Optical fiber communication Optische Nachrichtenübertragung (DE-588)4172668-6 gnd rswk-swf Optische Nachrichtenübertragung (DE-588)4172668-6 s DE-604 http://www.loc.gov/catdir/enhancements/fy0834/2008019705-d.html Publisher description http://www.loc.gov/catdir/toc/ecip0817/2008019705.html Table of contents only GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020672590&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lecoy, Pierre Fiber-optic communications Optical fiber communication Optische Nachrichtenübertragung (DE-588)4172668-6 gnd
subject_GND	(DE-588)4172668-6
title	Fiber-optic communications
title_alt	Télécoms sur fibres optiques
title_auth	Fiber-optic communications
title_exact_search	Fiber-optic communications
title_full	Fiber-optic communications Pierre Lecoy
title_fullStr	Fiber-optic communications Pierre Lecoy
title_full_unstemmed	Fiber-optic communications Pierre Lecoy
title_short	Fiber-optic communications
title_sort	fiber optic communications
topic	Optical fiber communication Optische Nachrichtenübertragung (DE-588)4172668-6 gnd
topic_facet	Optical fiber communication Optische Nachrichtenübertragung
url	http://www.loc.gov/catdir/enhancements/fy0834/2008019705-d.html http://www.loc.gov/catdir/toc/ecip0817/2008019705.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020672590&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lecoypierre telecomssurfibresoptiques AT lecoypierre fiberopticcommunications

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