Lasers and optoelectronics fundamentals, devices and applications

Lasers and optoelectronics fundamentals, devices and applications

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1. Verfasser: Maini, Anil K. (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Chichester Wiley 2013
Ausgabe:1. publ.
Schlagworte:
Lasers
Optoelectronic devices
Optoelektronisches Bauelement
Lasertechnologie
Optoelektronik
Laser
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Datensatz im Suchindex

_version_ 1819782225652088832
adam_text CONTENTS PREFACE PART I LASER FUNDAMENTALS 1 LASER BASICS 1.1 INTRODUCTION 1.2 LASER OPERATION 1.3 RULES OF QUANTUM MECHANICS 1.4 ABSORPTION, SPONTANEOUS EMISSION AND STIMULATED EMISSION 1.5 POPULATION INVERSION 1.5.1 PRODUCING POPULATION INVERSION 1.6 TWO-, THREE- AND FOUR-LEVEL LASER SYSTEMS 1.6.1 TWO-LEVEL LASER SYSTEM 1.6.2 THREE-LEVEL LASER SYSTEM 1.6.3 FOUR-LEVEL LASER SYSTEM 1.6.4 ENERGY LEVEL STRUCTURES OF PRACTICAL LASERS 1.7 GAIN OF LASER MEDIUM 1.8 LASER RESONATOR 1.9 LONGITUDINAL AND TRANSVERSE MODES 1.10 TYPES OF LASER RESONATORS 1.11 PUMPING MECHANISMS 1.11.1 OPTICAL PUMPING 1.11.2 ELECTRICAL PUMPING 1.11.3 OTHER METHODS OF PUMPING 1.12 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 2 LASER CHARACTERISTICS 2.1 INTRODUCTION 2.2 LASER CHARACTERISTICS 2.2.1 MONOCHROMATICITY 2.2.1.1 LINE-BROADENING MECHANISMS 2.2.2 COHERENCE 2.2.2.1 TEMPORAL COHERENCE 2.2.2.2 SPATIAL COHERENCE 2.2.3 DIRECTIONALITY XIX 1 3 3 3 3 4 10 11 11 11 12 14 15 16 17 18 21 23 24 28 29 29 30 30 31 33 34 34 34 34 34 36 36 38 39 VIII CONTENTS 2.3 IMPORTANT LASER PARAMETERS 2.3.1 WAVELENGTH 2.3.2 CW POWER 2.3.3 PEAK POWER 2.3.4 AVERAGE POWER 2.3.5 PULSE ENERGY 2.3.6 REPETITION RATE 2.3.7 PULSE WIDTH 2.3.8 DUTY CYCLE 2.3.9 RISE AND FALL TIMES 2.3.10 IRRADIANCE 2.3.11 RADIANCE 2.3.12 BEAM DIVERGENCE 2.3.13 SPOT SIZE 2.3.14 M2 VALUE 2.3.15 WALL-PLUG EFFICIENCY 2.4 MEASUREMENT OF LASER PARAMETERS 2.4.1 MEASUREMENT OF POWER, ENERGY AND REPETITION RATE 2.4.1.1 CHOOSING THE APPROPRIATE SENSOR 2.4.1.2 CHOOSING THE APPROPRIATE METER MEASUREMENT OF SPOT SIZE MEASUREMENT OF DIVERGENCE MEASUREMENT OF M2 VALUE MEASUREMENT OF LINE WIDTH 2.5 2.4.2 2.4.3 2.4.4 2.4.5 LASER BEAM DIAGNOSTIC EQUIPMENT 2.5.1 WAVELENGTH METER 2.5.2 LASER SPECTRUM ANALYZER 2.5.3 LASER BEAM PROFILER 2.5.4 BEAM PROPAGATION ANALYZER 2.6 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY PART II TYPES OF LASERS 3 SOLID-STATE LASERS 3.1 INTRODUCTION: TYPES OF LASERS 3.2 IMPORTANCE OF HOST MATERIAL 3.2.1 LASING SPECIES 3.3 OPERATIONAL MODES 3.3.1 CW OUTPUT 3.3.2 FREE-RUNNING OUTPUT 3.3.3 Q-SWITCHED OUTPUT 3.3.4 CAVITY-DUMPED OUTPUT 3.3.5 MODE-LOCKED OUTPUT 3.4 RUBY LASERS 3.5 NEODYMIUM-DOPED LASERS 3.5.1 ND: YAG LASERS 3.5.2 ND: YLF LASERS 41 41 42 42 43 43 43 44 44 45 45 45 46 47 48 48 49 49 49 50 50 50 52 53 56 56 56 57 58 59 60 61 62 63 65 67 67 67 68 68 69 69 69 72 72 76 78 79 79 CONTENTS 3.5.3 ND: YVO4 LASERS 3.5.4 ND: CR: GSGG LASERS 3.5.5 ND: GLASS LASERS 3.6 ERBIUM-DOPED LASERS 3.6.1 ER: YAG LASER 3.6.2 ER: GLASS LASER 3.7 VIBRONIC LASERS 3.7.1 ALEXANDRITE LASER 3.7.2 TITANIUM-SAPPHIRE LASER 3.8 COLOUR CENTRE LASERS 3.9 FIBRE LASERS 3.9.1 BASIC FIBRE LASER 3.9.2 FIBRE LASERS VERSUS BULK SOLID-STATE LASERS 3.9.3 OPERATIONAL REGIMES 3.9.4 PHOTONIC CRYSTAL FIBRE LASERS 3.9.4.1 GUIDING MECHANISMS IN PCF 3.9.4.2 SUBCLASSES OF PCFS 3.9.4.3 PCF LASERS 3.9.5 APPLICATIONS 3.10 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 4 GAS LASERS 4.1 INTRODUCTION TO GAS LASERS 4.1.1 THE ACTIVE MEDIA 4.1.2 INTER-LEVEL TRANSITIONS 4.1.3 PUMPING MECHANISM 4.2 HELIUM-NEON LASERS 4.3 CARBON DIOXIDE LASERS 4.4 METAL VAPOUR LASERS 4.4.1 HELIUM-CADMIUM LASER 4.4.2 COPPER VAPOUR AND GOLD VAPOUR LASERS 4.5 RARE GAS ION LASERS 4.6 EXCIMER LASERS 4.7 CHEMICAL LASERS 4.7.1 HYDROGEN FLUORIDE/DEUTERIUM FLUORIDE (HF/DF) LASERS 4.7.2 CHEMICAL OXYGEN IODINE LASER (COIL) 4.7.3 ALL GAS-PHASE IODINE LASER (AGIL) 4.8 CARBON DIOXIDE GAS DYNAMIC LASERS 4.9 DYE LASER 4.9.1 ACTIVE MEDIUM 4.9.2 PUMP MECHANISMS 4.9.3 WAVELENGTH SELECTION 4.10 FREE-ELECTRON LASERS 4.11 X-RAY LASERS 4.12 SUMMARY REVIEW QUESTIONS SELF-EVALUATION EXERCISE BIBLIOGRAPHY IX 82 82 84 85 85 85 88 88 90 90 91 92 93 95 96 97 97 98 98 101 102 102 102 104 105 105 105 106 106 107 111 115 115 116 118 120 121 121 123 124 125 125 126 127 127 127 129 129 129 130 131 X CONTENTS 5 SEMICONDUCTOR LASERS 5.1 INTRODUCTION 5.2 OPERATIONAL BASICS 5.3 SEMICONDUCTOR LASER MATERIALS 5.4 TYPES OF SEMICONDUCTOR LASERS 5.4.1 HOMOJUNCTION AND HETEROJUNCTION LASERS 5.4.2 QUANTUM WELL DIODE LASERS 5.4.3 DISTRIBUTED FEEDBACK (DFB) LASERS 5.4.4 VERTICAL-CAVITY SURFACE-EMITTING LASER (VCSEL) 5.4.5 VERTICAL EXTERNAL-CAVITY SURFACE-EMITTING LASERS (VECSEL) 5.4.6 EXTERNAL-CAVITY SEMICONDUCTOR DIODE LASERS 5.4.7 OPTICALLY PUMPED SEMICONDUCTOR LASERS 5.4.8 QUANTUM CASCADE LASERS 5.4.9 LEAD SALT LASERS 5.5 CHARACTERISTIC PARAMETERS 5.5.1 THRESHOLD CURRENT 5.5.2 SLOPE EFFICIENCY 5.5.3 BEAM DIVERGENCE 5.5.4 LINE WIDTH 5.5.5 BEAM POLARIZATION 5.6 GAIN- AND INDEX-GUIDED DIODE LASERS 5.7 HANDLING SEMICONDUCTOR DIODE LASERS 5.8 SEMICONDUCTOR DIODE LASERS: APPLICATION AREAS 5.8.1 DIRECTED ENERGY 5.8.2 COHERENCE 5.8.3 MONOCHROMATICITY 5.9 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY PART III LASER ELECTRONICS AND OPTOELECTRONICS 6 BUILDING BLOCKS OF LASER ELECTRONICS 6.1 INTRODUCTION 6.2 LINEAR POWER SUPPLIES 6.2.1 CONSTITUENTS OF A LINEAR POWER SUPPLY 6.2.2 RECTIFIER CIRCUITS 6.2.3 FILTERS 6.2.4 LINEAR REGULATORS 6.2.4.1 EMITTER-FOLLOWER REGULATOR 6.2.4.2 SERIES-PASS REGULATOR 6.2.4.3 SHUNT REGULATOR 6.2.4.4 LINEAR IC VOLTAGE REGULATORS 6.3 SWITCHED-MODE POWER SUPPLIES 6.3.1 LINEAR VERSUS SWITCHED-MODE POWER SUPPLIES 6.3.2 DIFFERENT TYPES OF SWITCHED-MODE POWER SUPPLIES 6.3.2.1 FLYBACK CONVERTERS 6.3.2.2 FORWARD CONVERTER 6.3.2.3 PUSH-PULL CONVERTER 132 132 132 135 136 136 136 138 140 140 141 143 145 147 148 148 148 149 151 152 152 152 153 153 153 153 154 155 155 156 157 159 161 161 161 161 162 164 166 166 167 170 171 173 173 174 174 178 178 CONTENTS 6.3.2.4 SWITCHING REGULATORS 6.3.2.5 THREE-TERMINAL SWITCHING REGULATORS 6.3.3 CONNECTING POWER CONVERTERS IN SERIES 6.3.4 CONNECTING POWER CONVERTERS IN PARALLEL 6.4 CONSTANT CURRENT SOURCES 6.4.1 JUNCTION FIELD-EFFECT-TRANSISTOR-BASED CONSTANT CURRENT SOURCE 6.4.2 TRANSISTOR-BASED CONSTANT CURRENT SOURCE 64.3 OPAMP-CONTROLLED CONSTANT CURRENT SOURCE 6.4.4 CONSTANT CURRENT SOURCE USING THREE-TERMINAL REGULATORS 6.4.5 CURRENT MIRROR CONFIGURATIONS 6.4.5.1 BASIC CURRENT MIRROR 6.4.5.2 WIDLAR CURRENT SOURCE 6.4.5.3 WILSON CURRENT SOURCE 6.5 INTEGRATED-CIRCUIT TIMER CIRCUITS 6.5.1 DIGITAL IC-BASED TINIER CIRCUITS 6.5.2 IC TIMER-BASED MULTIVIBRATORS 6.5.2.1 ASTABLE MULTIVIBRATOR USING TIMER IC 555 6.5.2.2 MONOSTABLE MULTIVIBRATOR USING TIMER IC 555 6.6 CURRENT-TO-VOLTAGE CONVERTER 6.7 PEAK DETECTOR 6.8 HIGH-VOLTAGE TRIGGER CIRCUIT 6.9 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 7 SOLID-STATE LASER ELECTRONICS 7.1 7.2 INTRODUCTION SPECTRUM OF LASER ELECTRONICS 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 SOLID-STATE LASERS SEMICONDUCTOR DIODE LASERS GAS LASERS TESTING AND EVALUATION OF LASERS LASER SENSOR SYSTEMS 7.3 7.4 ELECTRONICS FOR SOLID-STATE LASERS ELECTRONICS FOR PULSED SOLID-STATE LASERS 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 ELECTRONICS FOR Q-SWITCHED SOLID-STATE LASERS CAPACITOR-CHARGING POWER SUPPLY SIMMER POWER SUPPLY PSEUDO-SIMMER MODE PULSE FORMING NETWORK FLASHLAMP TRIGGER CIRCUIT 7.5 ELECTRONICS FOR CW SOLID-STATE LASERS 7.5.1 ARC LAMPS 7.5.2 ELECTRICAL CHARACTERISTICS 7.5.3 ARE LAMP POWER SUPPLY 7.5.4 MODULATED CW AND QUASI-CW OPERATION OF ARC LAMP 7.6 SOLID-STATE LASER DESIGNATORS AND RANGEFINDERS 7.7 SUMMARY REVIEW QUESTIONS PROBLEMS XI 181 183 184 184 186 186 187 189 . 189 190 190 191 191 191 191 193 194 195 197 199 200 202 203 204 206 207 208 208 208 208 209 211 212 213 213 214 214 216 222 224 225 231 233 233 234 235 236 237 238 239 240 XII CONTENTS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 8 GAS LASER ELECTRONICS 8.1 INTRODUCTION 8.2 GAS DISCHARGE CHARACTERISTICS 8.3 GAS LASER POWER SUPPLIES 8.4 HELIUM-NEON LASER POWER SUPPLY 8.4.1 POWER SUPPLY DESIGN 8.4.2 SWITCHED-MODE POWER SUPPLY CONFIGURATIONS 8.4.3 OTHER POSSIBLE CONFIGURATIONS 8.4.4 CONFIGURATIONS FOR SPECIAL APPLICATIONS 8.4.5 BALLAST RESISTANCE 8.5 CARBON DIOXIDE LASER POWER SUPPLIES 8.5.1 DC-EXCITED CW CO2 LASER 8.5.2 DC-EXCITED PULSED CO2 LASER 8.5.3 RF-EXCITED CO2 LASERS 8.6 POWER SUPPLIES FOR METAL VAPOUR LASERS 8.7 POWER SUPPLIES FOR EXCIMER LASERS 8.8 POWER SUPPLIES FOR ION LASERS 8.9 FREQUENCY STABILIZATION OF GAS LASERS 8.9.1 DITHER STABILIZATION 8.9.2 STARK-CELL STABILIZATION 8.9.3 OPTOGALVANIC STABILIZATION 8.9.4 STABILIZATION USING SATURATION ABSORPTION DIP 8.10 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 9 LASER DIODE ELECTRONICS 9.1 INTRODUCTION 9.2 LASER DIODE PROTECTION 9.2.1 LASER DIODE DRIVE AND CONTROL 9.2.2 INTERCONNECTION CABLES AND GROUNDING 9.2.3 TRANSIENT SUPPRESSION 9.2.4 ELECTROSTATIC DISCHARGE 9.3 OPERATIONAL MODES 9.3.1 CONSTANT-CURRENT MODE 9.3.2 CONSTANT-POWER MODE 9.4 LASER DIODE DRIVER CIRCUITS 9.4.1 BASIC CONSTANT-CURRENT SOURCE 9.4.2 LASER DIODE DRIVER WITH FEEDBACK CONTROL 9.4.3 LASER DIODE DRIVER WITH MODULATION INPUT 9.4.4 LASER DIODE DRIVER WITH PROTECTION FEATURES 9.4.5 LASER DIODE DRIVER WITH AUTOMATIC POWER CONTROL 9.4.6 QUASI-CW LASER DIODE DRIVER 9.5 LASER DIODE TEMPERATURE CONTROL 9.5.1 THERMOELECTRIC COOLING FUNDAMENTALS 9.5.2 THERMOELECTRIC COOLER: PERFORMANCE CHARACTERISTICS 240 241 242 242 242 242 244 247 250 253 254 257 257 257 257 259 260 261 262 263 264 265 265 266 267 268 268 269 270 271 271 271 272 274 275 275 276 276 277 278 278 279 282 284 286 289 291 292 295 CONTENTS 9.5.3 TE MODULE SELECTION 9.5.4 HEAT SINK SELECTION 9.5.5 THERMOELECTRIC COOLER DRIVE AND CONTROL CIRCUITS 9.5.5.1 TEMPERATURE SENSING CIRCUITS 9.5.5.2 ERROR AMPLIFIER 9.5.5.3 ERROR SIGNAL PROCESSOR 9.5.5.4 OUTPUT STAGE 9.6 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 10 OPTOELECTRONIC DEVICES AND CIRCUITS 10.1 INTRODUCTION 10.2 CLASSIFICATION OF PHOTOSENSORS 10.2.1 PHOTOELECTRIC SENSORS 10.2.2 THERMAL SENSORS 10.3 RADIOMETRY AND PHOTOMETRY 10.3.1 RADIOMETRIC AND PHOTOMETRIC FLUX 10.3.2 RADIOMETRIC AND PHOTOMETRIC INTENSITY 10.3.3 RADIANT INCIDENCE (IRRADIANCE) AND ILLUMINANCE 10.3.4 RADIANT STERANCE (RADIANCE) AND LUMINANCE 10.4 CHARACTERISTIC PARAMETERS 10.4.1 RESPONSIVITY 10.4.2 NOISE EQUIVALENT POWER (NEP) 10.4.3 DETECTIVITY AND D-STAR 10.4.4 QUANTUM EFFICIENCY 10.4.5 RESPONSE TIME 10.4.6 NOISE 10.5 PHOTOCONDUCTORS 10.5.1 APPLICATION CIRCUITS 10.6 PHOTODIODES 10.6.1 TYPES OF PHOTODIODES 10.6.1.1 PN PHOTODIODES 10.6.1.2 PIN PHOTODIODES 10.6.1.3 SCHOTTKY PHOTODIODES 10.6.1.4 AVALANCHE PHOTODIODES 10.6.2 EQUIVALENT CIRCUIT 10.6.3 I-V CHARACTERISTICS 10.6.4 APPLICATION CIRCUITS 10.6.5 SOLAR CELLS 10.7 PHOTOTRANSISTORS 10.7.1 APPLICATION CIRCUITS 10.8 PHOTO- FET, SCR AND TRIAC 10.8.1 PHOTO-FET 10.8.2 PHOTO-SCR 10.8.3 PHOTO-TRIAC 10.9 PHOTOEMISSIVE SENSORS 10.9.1 VACUUM PHOTODIODES 10.9.2 PHOTOMULTIPLIER TUBES 10.9.3 IMAGE INTENSIFIERS X111 297 299 301 301 303 303 306 308 310 310 312 314 315 315 315 315 316 316 316 316 318 318 318 318 321 321 321 322 323 324 326 329 330 330 331 331 331 331 333 334 336 340 341 343 343 343 344 345 345 345 346 XIV CONTENTS 10.10 THERMAL SENSORS 10.10.1 THERMOCOUPLE AND THERMOPILE 10.10.2 BOLOMETER 10.10.3 PYROELECTRIC SENSORS 10.11 DISPLAYS 10.11.1 DISPLAY CHARACTERISTICS 10.11.2 TYPES OF DISPLAYS 10.12 LIGHT-EMITTING DIODES 10.12.1 CHARACTERISTIC CURVES 10.12.2 PARAMETERS 10.12.3 DRIVE CIRCUITS 10.13 LIQUID-CRYSTAL DISPLAYS 10.13.1 CONSTRUCTION 10.13.2 DRIVING LCD 10.13.3 RESPONSE TIME 10.13.4 TYPES OF LCD DISPLAYS 10.13.5 ADVANTAGES AND DISADVANTAGES 10.14 CATHODE RAY TUBE DISPLAYS 10.15 EMERGING DISPLAY TECHNOLOGIES 10.15.1 ORGANIC LIGHT-EMITTING DIODES (OLEDS) 10.15.2 DIGITAL LIGHT-PROCESSING (DLP) TECHNOLOGY 10.15.3 PLASMA DISPLAY PANELS (PDPS) 10.15.4 FIELD EMISSION DISPLAYS (FEDS) 10.15.5 ELECTRONIC INK DISPLAYS 10.16 OPTOCOUPLERS 10.16.1 CHARACTERISTIC PARAMETERS 10.16.2 APPLICATION CIRCUITS 10.17 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY PART IV LASER APPLICATIONS 11 LASERS IN INDUSTRY 11.1 INTRODUCTION 11.2 MATERIAL-PROCESSING APPLICATIONS 11.2.1 CLASSIFICATION 11.2.2 IMPORTANT CONSIDERATIONS 11.2.2.1 MATERIAL PROPERTIES: ABSORPTION LENGTH AND DIFFUSION LENGTH 11.2.2.2 LASER PARAMETERS 11.2.3 COMMON MATERIAL-PROCESSING APPLICATIONS 11.2.4 ADVANTAGES 11.3 LASER CUTTING 11.3.1 BASIC PRINCIPLE 11.3.2 LASER CUTTING VS PLASMA CUTTING 11.3.3 LASER CUTTING PROCESSES 11.3.4 MACHINE CONFIGURATIONS 347 347 348 348 350 350 350 351 352 354 354 356 356 357 358 358 361 361 362 362 363 363 363 363 363 364 366 370 372 373 374 377 379 381 381 381 381 382 382 382 383 385 385 385 387 387 388 CONTENTS 12 11.4 LASER WELDING 11.4.1 LASER WELDING PROCESSES 11.4.2 WELDING LASERS 11.4.3 ADVANTAGES 11.5 LASER DRILLING 11.5.1 BASIC PRINCIPLE 11.5.2 LASER DRILLING PROCESSES 11.5.3 LASERS FOR DRILLING 11.5.4 ADVANTAGES OF LASER DRILLING 11.6 LASER MARKING AND ENGRAVING 11.6.1 PRINCIPLE OF OPERATION 11.6.2 LASER MARKING PROCESSES 11.6.3 LASERS FOR MARKING AND ENGRAVING 11.6.4 ADVANTAGES 11.7 LASER MICROMACHINING 11.7.1 LASER MICROMACHINING OPERATIONS 11.7.2 LASERS FOR MICROMACHINING 11.7.3 LASER MICROMACHINING TECHNIQUES 11.8 PHOTOLITHOGRAPHY 11.8.1 BASIC PROCESS 11.8.2 LASERS FOR PHOTOLITHOGRAPHY 11.9 RAPID MANUFACTURING 11.9.1 ADDITIVE VERSUS SUBTRACTIVE MANUFACTURING 11.9.2 RAPID MANUFACTURING TECHNOLOGIES 11.9.3 LASERS FOR RAPID MANUFACTURING 11.9.4 ADVANTAGES 11.10 LASERS IN PRINTING 11.10.1 LASER PRINTING PROCESS 11.10.2 ANATOMY OF LASER PRINTER 11.10.3 CHOICE CRITERIA 11.10.4 LASER PRINTERS VS INKJET PRINTERS 11.11 SUMMARY REVIEW QUESTIONS SELF-EVALUATION EXERCISE BIBLIOGRAPHY LASERS IN MEDICINE 12.1 INTRODUCTION 12.2 LIGHT-TISSUE INTERACTION 12.2.1 LIGHT-TISSUE INTERACTION FOR DIAGNOSTIC APPLICATIONS 12.2.1.1 FUNDAMENTAL INTERACTION MECHANISMS 12.2.1.2 OPTICAL PROPERTIES OF TISSUES 12.2.1.3 FLUENCE RATE DISTRIBUTION 12.2.2 LIGHT-TISSUE INTERACTION FOR THERAPEUTIC APPLICATIONS 12.2.2.1 PHOTOCHEMICAL EFFECTS 12.2.2.2 PHOTOTHERMAL EFFECTS 12.2.2.3 PHOTOMECHANICAL EFFECTS 12.3 LASER DIAGNOSTICS 12.3.1 BASIC PRINCIPLE 12.3.2 COMPARISON WITH OTHER TECHNIQUES 12.3.3 IN VIVO OPTICAL DIAGNOSTIC TECHNIQUES 12.3.3.1 WHITE LIGHT IMAGING XV 390 390 390 392 393 393 394 395 396 396 396 397 398 399 401 402 403 404 407 408 411 411 412 412 413 414 414 415 415 416 417 418 419 420 421 422 422 422 423 423 425 426 427 427 428 429 430 431 431 432 432 XVI CONTENTS 12.3.3.2 DIFFUSE OPTICAL SPECTROSCOPY 12.3.3.3 ELASTIC SCATTERING SPECTROSCOPY 12.3.3.4 OPTICAL COHERENCE TOMOGRAPHY 12.3.3.5 CONFOCAL IMAGING 12.3.3.6 FLUORESCENCE SPECTROSCOPY AND IMAGING 12.3.3.7 RAMAN SPECTROSCOPY 12.4 THERAPEUTIC TECHNIQUES: APPLICATION AREAS 12.5 OPHTHALMOLOGY 12.5.1 REFRACTIVE SURGERY 12.5.2 TREATMENT OF GLAUCOMA 12.5.3 CATARACT SURGERY 12.5.4 TREATMENT OF RETINAL DETACHMENT (RETINOPEXY) 12.5.5 TREATMENT OF PROLIFERATIVE DIABETIC RETINOPATHY 12.6 DERMATOLOGY 12.6.1 PORTWINE STAINS 12.6.2 PIGMENTED LESIONS AND TATTOOS 12.6.3 HAIR REMOVAL 12.6.4 LASERS FOR DERMATOLOGY 12.7 LASER DENTISTRY 12.7.1 CONSIDERATIONS IN LASER DENTISTRY 12.7.2 LASERS FOR DENTISTRY 12.8 VASCULAR SURGERY 12.8.1 CONVENTIONAL TREATMENT OF ANGIOPLASTY: PTA 12.8.2 LASER ANGIOPLASTY 12.9 PHOTODYNAMIC THERAPY 12.9.1 IMPORTANT CONSIDERATIONS 12.9.2 APPLICATIONS OF PTD 12.10 THERMAL THERAPY 12.10.1 TREATMENT OF HAEMORRHAGES OF PEPTIC ULCERS 12.10.2 TREATMENT OF CANCER 12.11 SUMMARY REVIEW QUESTIONS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 13 LASERS IN SCIENCE AND TECHNOLOGY 13.1 INTRODUCTION 13.2 OPTICAL METROLOGY 13.2.1 INTERFEROMETERS 13.2.1.1 MICHELSON INTERFEROMETER 13.2.1.2 TWYMAN-GREEN INTERFEROMETER 13.2.1.3 MACH-ZEHNDER INTERFEROMETER 13.2.1.4 FABRY-PEROT INTERFEROMETER 13.2.1.5 SAGNAC INTERFEROMETER 13.2.2 LENGTH METROLOGY 13.2.3 TIME AND FREQUENCY METROLOGY 13.2.3.1 OPTICAL CLOCK 13.2.4 MEASUREMENT OF LINE WIDTH 13.2.5 INFRARED THERMOMETER 13.3 LASER VELOCIMETRY 13.3.1 LASER DOPPLER VELOCIMETRY 13.3.1.1 OPERATIONAL PRINCIPLE 13.3.1.2 ADVANTAGES 434 434 435 438 438 441 442 443 444 447 448 449 449 449 450 451 452 453 453 453 454 455 455 456 456 458 458 459 459 460 460 462 463 465 466 466 466 466 467 468 468 469 471 471 472 474 474 476 478 478 478 480 CONTENTS 13.3.1.3 APPLICATIONS 13.3.2 PARTICLE IMAGE VELOCIMETRY 13.4 LASER VIBROMETRY 13.4.1 OPERATIONAL PRINCIPLE 13.4.2 TYPES OF LASER DOPPLER VIBROMETERS 13.4.3 APPLICATIONS 13.5 ELECTRONIC SPECKLE PATTERN INTERFEROMETRY 13.5.1 OPERATIONAL PRINCIPLE 13.5.2 MEASUREMENT CONFIGURATIONS 13.5.2.1 OUT-OF-PLANE DISPLACEMENT MEASUREMENT 13.5.2.2 IN-PLANE DISPLACEMENT MEASUREMENT 13.5.2.3 IN-PLANE DISPLACEMENT GRADIENT MEASUREMENT 13.5.2.4 THREE-DIMENSIONAL (3D) MEASUREMENT 13.5.2.5 VIBRATION MEASUREMENT 13.6 SATELLITE LASER RANGING 13.6.1 OPERATIONAL PRINCIPLE 13.6.2 LASERS FOR SLR 13.6.3 SLR TELESCOPES AND STATIONS 13.6.4 SLR APPLICATIONS 13.7 LASERS IN ASTRONOMY 13.7.1 ADAPTIVE OPTICS 13.7.2 LASER GUIDE STAR 13.7.3 LASER GUIDE STAR MECHANISMS 13.7.3.1 RAYLEIGH GUIDE STAR 13.7.3.2 SODIUM BEACON GUIDE STAR 13.8 HOLOGRAPHY 13.8.1 BASIC PRINCIPLE 13.8.2 TYPES OF HOLOGRAM 13.8.2.1 AMPLITUDE- AND PHASE-MODULATED HOLOGRAMS 13.8.2.2 TRANSMISSION AND REFLECTION HOLOGRAMS 13.8.2.3 THIN AND THICK HOLOGRAMS 13.8.2.4 OTHER COMMONLY ENCOUNTERED HOLOGRAMS 13.8.3 APPLICATIONS 13.9 SUMMARY REVIEW QUESTIONS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 14 MILITARY APPLICATIONS: LASER INSTRUMENTATION 14.1 INTRODUCTION 14.2 MILITARY APPLICATIONS OF LASERS 14.3 LASER-BASED INSTRUMENTATION 14.3.1 LASER AIMING MODULES 14.3.2 LASER RANGEFINDERS 14.3.2.1 TIME-OF-FLIGHT TECHNIQUE 14.3.2.2 TRIANGULATION TECHNIQUE 14.3.2.3 PHASE SHIFT TECHNIQUE 14.3.2.4 FM-CW RANGE-FINDING TECHNIQUE 14.3.2.5 LASERS FOR LASER RANGEFINDERS 14.3.2.6 APPLICATIONS AND RELATED DEVICES 14.3.3 LASER TARGET DESIGNATORS 14.3.4 LASER PROXIMITY SENSORS 14.3.5 LASER BATHYMETRY SENSORS XVII 480 480 482 482 484 484 484 485 486 486 487 487 488 490 490 491 492 492 493 494 494 494 496 496 496 496 498 499 499 499 500 501 502 503 504 505 507 508 508 508 512 512 513 514 515 516 516 518 519 520 520 524 XVIII CONTENTS 14.4 14.3.6 LASER RADAR (LADAR) SENSORS 14.3.7 FORWARD-LOOKING INFRARED (FLIR) SENSORS GUIDED MUNITIONS 14.4.1 GUIDANCE TECHNIQUES 14.4.1.1 BEAM RIDER GUIDANCE 14.4.1.2 COMMAND GUIDANCE 14.4.1.3 HOMING GUIDANCE 14.4.1.4 NAVIGATION GUIDANCE 14.4.1.5 RING LASER GYROSCOPE 14.4.1.6 FIBRE-OPTIC GYROSCOPE 14.4.2 ELECTRO-OPTICALLY GUIDED PRECISION STRIKE MUNITIONS 14.4.2.1 LASER-GUIDED MUNITIONS: OPERATIONAL BASICS 14.4.2.2 IR-GUIDED MISSILES: OPERATIONAL BASICS 526 528 532 532 532 533 536 538 540 545 546 549 554 556 556 557 559 561 562 563 564 565 566 566 566 566 567 567 568 570 573 574 576 580 580 580 581 584 585 587 588 589 590 592 595 596 598 14.5 LASER COMMUNICATION 14.5.1 ADVANTAGES AND LIMITATIONS 14.5.2 FREE-SPACE COMMUNICATION 14.5.3 FIBRE-OPTIC COMMUNICATION 14.6 SUMMARY REVIEW QUESTIONS PROBLEMS SELF-EVALUATION EXERCISE BIBLIOGRAPHY 15 MILITARY APPLICATIONS: DIRECTED-ENERGY LASER SYSTEMS 15.1 INTRODUCTION 15.2 LASER TECHNOLOGY FOR LOW-INTENSITY CONFLICT (LIC) APPLICATIONS 15.2.1 IMPORTANCE OF LASER TECHNOLOGY IN LIC APPLICATIONS 15.2.2 DETECTION OF CHEMICAL AND BIOLOGICAL WARFARE AGENTS 15.2.2.1 DETECTION OF CHEMICAL WARFARE AGENTS 15.2.2.2 DETECTION OF BIOLOGICAL AGENTS 15.2.3 DETECTION OF EXPLOSIVE AGENTS 15.2.4 DETECTION OF OPTICAL AND ELECTRO-OPTIC DEVICES 15.2.5 DISPOSAL OF UNEXPLODED ORDNANCES 15.2.6 NON-LETHAL LASER DAZZLERS 15.3 ELECTRO-OPTIC COUNTERMEASURES 15.3.1 NEED AND RELEVANCE 15.3.2 PASSIVE AND ACTIVE COUNTERMEASURES 15.3.3 TYPES OF EOCM EQUIPMENT 15.3.4 INFRARED COUNTERMEASURES 15.4 DIRECTED-ENERGY LASER WEAPONS 15.4.1 OPERATIONAL ADVANTAGES AND LIMITATIONS 15.4.2 OPERATIONAL SCENARIO 15.4.3 COMPONENTS OF DIRECTED-ENERGY WEAPON SYSTEMS 15.4.4 INTERNATIONAL STATUS 15.5 SUMMARY REVIEW QUESTIONS SELF-EVALUATION EXERCISE BIBLIOGRAPHY APPENDIX A: LASER SAFETY 599 INDEX 605
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spellingShingle Maini, Anil K.
Lasers and optoelectronics fundamentals, devices and applications
Lasers
Optoelectronic devices
Optoelektronisches Bauelement (DE-588)4043689-5 gnd
Lasertechnologie (DE-588)4166821-2 gnd
Optoelektronik (DE-588)4043687-1 gnd
Laser (DE-588)4034610-9 gnd
subject_GND (DE-588)4043689-5
(DE-588)4166821-2
(DE-588)4043687-1
(DE-588)4034610-9
title Lasers and optoelectronics fundamentals, devices and applications
title_auth Lasers and optoelectronics fundamentals, devices and applications
title_exact_search Lasers and optoelectronics fundamentals, devices and applications
title_full Lasers and optoelectronics fundamentals, devices and applications Anil K. Maini
title_fullStr Lasers and optoelectronics fundamentals, devices and applications Anil K. Maini
title_full_unstemmed Lasers and optoelectronics fundamentals, devices and applications Anil K. Maini
title_short Lasers and optoelectronics
title_sort lasers and optoelectronics fundamentals devices and applications
title_sub fundamentals, devices and applications
topic Lasers
Optoelectronic devices
Optoelektronisches Bauelement (DE-588)4043689-5 gnd
Lasertechnologie (DE-588)4166821-2 gnd
Optoelektronik (DE-588)4043687-1 gnd
Laser (DE-588)4034610-9 gnd
topic_facet Lasers
Optoelectronic devices
Optoelektronisches Bauelement
Lasertechnologie
Optoelektronik
Laser
url http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026812248&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv AT mainianilk lasersandoptoelectronicsfundamentalsdevicesandapplications

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