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Optics, light and lasers: the practical approach to modern aspects of photonics and laser physics

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Bibliographische Detailangaben
1. Verfasser:	Meschede, Dieter 1954- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2017]
Ausgabe:	Third, revised and enlarged edition
Schlagworte:	Licht Optik Laser Photonik Chemie Chemistry Electrical & Electronics Engineering Elektrotechnik u. Elektronik Materials Characterization Materials Science Materialwissenschaften Optical Communications Optik u. Photonik Optische Nachrichtentechnik Physik Spectroscopy Spektroskopie Werkstoffprüfung Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xix, 528 Seiten Illustrationen, Diagramme 25 cm
ISBN:	9783527413317

Internformat

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245	1	0	\|a Optics, light and lasers \|b the practical approach to modern aspects of photonics and laser physics \|c Dieter Meschede
250			\|a Third, revised and enlarged edition
264		1	\|a Weinheim \|b Wiley-VCH \|c [2017]
264		4	\|c © 2017
300			\|a xix, 528 Seiten \|b Illustrationen, Diagramme \|c 25 cm
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653			\|a Chemie
653			\|a Chemistry
653			\|a Electrical & Electronics Engineering
653			\|a Elektrotechnik u. Elektronik
653			\|a Materials Characterization
653			\|a Materials Science
653			\|a Materialwissenschaften
653			\|a Optical Communications
653			\|a Optik u. Photonik
653			\|a Optische Nachrichtentechnik
653			\|a Physik
653			\|a Spectroscopy
653			\|a Spektroskopie
653			\|a Werkstoffprüfung
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Datensatz im Suchindex

_version_	1804176393002549248
adam_text	CONTENTS PREFACE XIX 1 LIGHT RAYS 1 1.1 LIGHT RAYS IN HUMAN EXPERIENCE 1 1.2 RAY OPTICS 2 1.3 REFLECTION 2 1.3.1 PLANAR MIRRORS 2 1.4 REFRACTION 3 1.4.1 LAW OF REFRACTION 3 1.4.2 TOTAL INTERNAL REFLECTION 4 1.5 FORMATS PRINCIPLE: THE OPTICAL PATH LENGTH 5 1.5.1 INHOMOGENEOUS REFRACTIVE INDEX 6 1.6 PRISMS 8 1.6.1 DISPERSION 9 1.7 LIGHT RAYS IN WAVE GUIDES 10 1.7.1 RAY OPTICS IN WAVE GUIDES 11 1.7.2 STEP-INDEX FIBERS 12 1.7.2.1 NUMERICAL APERTURE OF AN OPTICAL FIBER 13 1.7.2.2 PROPAGATION VELOCITY 13 1.7.3 GRADIENT-INDEX FIBERS 13 1.8 LENSES AND CURVED MIRRORS IS 1.8.1 LENSES 15 1.8.2 CONCAVE MIRRORS 16 1.9 MATRIX OPTICS 17 1.9.1 PARAXIAL APPROXIMATION 17 1.9.2 ABCD MATRICES 18 1.9.3 LENSES IN AIR 19 1.9.4 LENS SYSTEMS 21 1.9.5 PERIODIC LENS SYSTEMS 22 1.9.6 ABCD MATRICES FOR WAVE GUIDES 23 1.10 RAY OPTICS AND PARTICLE OPTICS 23 2 WAVE OPTICS 29 2.1 ELECTROMAGNETIC RADIATION FIELDS 29 2.1.1 STATIC FIELDS 30 2.1.2 POLARIZABLE AND MAGNETIZABLE MEDIA 30 2.1.3 DYNAMIC FIELDS 31 2.1.4 FOURIER COMPONENTS 32 2.1.5 MAXWELLS EQUATIONS FOR OPTICS 33 2.1.6 CONTINUITY EQUATION AND SUPERPOSITION PRINCIPLE 33 2.1.7 THE WAVE EQUATION 33 2.1.8 ENERGY DENSITY, INTENSITY, AND THE POYNTING VECTOR OF ELECTROMAGNETIC WAVES 35 2.2 WAVE TYPES 37 2.2.1 PLANAR WAVES 37 2.2.2 SPHERICAL WAVES 38 2.2.3 DIPOLE WAVES 39 2.3 GAUSSIAN BEAMS 40 2.3.1 THE GAUSSIAN PRINCIPAL MODE OR TEM00 MODE 41 2.3.1.1 RAYLEIGH ZONE, CONFOCAL PARAMETER B 42 2.3.1.2 RADIUS OF WAVE FRONTS R(Z) 42 2.3.1.3 BEAM WAIST 2W0 42 2.3.1.4 BEAM RADIUS W(Z) 43 2.3.1.5 DIVERGENCE 0 DIV 43 2.3.1.6 GOUY PHASE RJ(Z) 43 2.3.2 THE ABCD RULE FOR GAUSSIAN MODES 44 2.3.3 PARAXIAL WAVE EQUATION 46 2.3.4 HIGHER GAUSSIAN MODES 47 2.3.5 CREATION OF GAUSSIAN MODES 49 2.3.6 MORE GAUSSIAN PARAXIAL BEAMS SO 2.4 VECTOR LIGHT: POLARIZATION SO 2.4.1 JONES VECTORS 52 2.4.2 STOKES PARAMETERS 52 2.4.3 POLARIZATION STATE AND POINCARE SPHERE 53 2.4.4 JONES MATRICES, POLARIZATION CONTROL, AND MEASUREMENT 54 2.4.5 POLARIZATION AND PROJECTION 56 2.4.6 POLARIZATION OF LIGHT BEAMS WITH FINITE EXTENSION 57 2.5 OPTOMECHANICS: MECHANICAL ACTION OF LIGHT BEAMS 58 2.5.1 RADIATION PRESSURE 58 2.5.2 ANGULAR MOMENTUM OF LIGHT BEAMS 59 2.5.3 BETHS EXPERIMENT 60 2.5.4 OPTICAL ANGULAR MOMENTUM (0AM) 60 2.5.4.1 TWISTED BEAMS 61 2.5.4.2 LAGUERRE-GAUSSIAN MODES 61 2.5.4.3 TRANSFORMING HERMITE-GAUSSIAN TO LAGUERRE-GAUSSIAN BEAMS 62 2.6 DIFFRACTION 63 2.6.1 SCALAR DIFFRACTION THEORY 64 2.7 FRAUNHOFER DIFFRACTION 67 2.7.1 OPTICAL FOURIER TRANSFORMATION, FOURIER OPTICS 70 2.8 FRESNEL DIFFRACTION 71 2.8.1 BABINETS PRINCIPLE 74 2.8.2 FRESNEL ZONES AND FRESNEL LENSES 75 2.9 BEYOND GAUSSIAN BEAMS: DIFFRACTION INTEGRAL AND ABCD FORMALISM 77 PROBLEMS 77 3 LIGHT PROPAGATION IN MATTER: INTERFACES, DISPERSION, AND BIREFRINGENCE 83 3.1 DIELECTRIC INTERFACES 83 3.1.1 REFRACTION AND REFLECTION AT GLASS SURFACES 84 3.1.1.1 S POLARIZATION 84 3.1.1.2 P POLARIZATION 86 3.1.2 TOTAL INTERNAL REFLECTION (TIR) 87 3.1.3 COMPLEX REFRACTIVE INDEX 88 3.2 INTERFACES OF CONDUCTING MATERIALS 89 3.2.1 WAVE PROPAGATION IN CONDUCTING MATERIALS 90 3.2.1.1 HIGH FREQUENCIES: COPR COR 1 90 3.2.1.2 LOW FREQUENCIES: COR 1 COPR 90 3.2.2 METALLIC REFLECTION 91 3.2.3 POLARITONS AND PLASMONS 92 3.2.3.1 SURFACE PLASMON POLARITONS (SPPS) 92 3.2.3.2 PROPERTIES OF SURFACE PLASMON POLARITONS (SPPS) 93 3.3 LIGHT PULSES IN DISPERSIVE MATERIALS 94 3.3.1 PULSE DISTORTION BY DISPERSION 98 3.3.2 SOLITONS 101 3.4 ANISOTROPIC OPTICAL MATERIALS 103 3.4.1 BIREFRINGENCE 103 3.4.2 ORDINARY AND EXTRAORDINARY LIGHT RAYS 106 3.4.3 CONSTRUCTION OF RETARDER PLATES 107 3.4.3.1 LYOT FILTER 108 3.4.4 BIREFRINGENT POLARIZERS 109 3.5 OPTICAL MODULATORS 110 3.5.1 POCKELS CELL AND ELECTRO-OPTICAL MODULATORS 110 3.5.2 LIQUID CRYSTAL MODULATORS 112 3.5.3 SPATIAL LIGHT MODULATORS 113 3.5.4 ACOUSTO-OPTICAL MODULATORS 114 3.5.5 FARADAY ROTATORS 117 3.5.6 OPTICAL ISOLATORS AND DIODES 118 PROBLEMS 119 4 LIGHT PROPAGATION IN STRUCTURED MATTER 121 4.1 OPTICAL WAVE GUIDES AND FIBERS 122 4.1.1 STEP-INDEX FIBERS 123 4.1.1.1 WEAKLY GUIDING STEP FIBERS 125 4.1.1.2 = 0: TE AND TM MODES 127 4.1.1.3 * 1: HE AND EH MODES 128 4.1.1.4 * 1: LP MODES 128 4.1.2 GRADED-INDEX FIBER 129 4.1.3 FIBER ABSORPTION 130 4.1.4 FUNCTIONAL TYPES AND APPLICATIONS OF OPTICAL FIBERS 130 4.1.4.1 MULTIMODE FIBERS 130 4.1.4.2 SINGLE-MODE FIBERS 131 4.1.4.3 POLARIZATION-MAINTAINING (PM) FIBERS 131 4.1.4.4 PHOTONIC CRYSTAL FIBERS (PCF) 132 4.2 DIELECTRIC PHOTONIC MATERIALS 132 4.2.1 PHOTONIC CRYSTALS 132 4.2.1.1 LIGHT PROPAGATION IN ID PERIODICALLY STRUCTURED DIELECTRICS 133 4.2.2 BLOCH WAVES 134 4.2.3 PHOTONIC BANDGAP IN ID 135 4.2.4 BANDGAPS IN 2D AND 3D 137 4.2.4.1 2D PHOTONIC CRYSTALS 137 4.2A2 3D PHOTONIC CRYSTALS 139 4.2.5 DEFECTS AND DEFECT MODES 139 4.2.6 PHOTONIC CRYSTAL FIBERS (PCFS) 141 4.3 METAMATERIALS 143 4.3.1 DIELECTRIC (PLASMONIC) METAMATERIALS 143 4.3.2 MAGNETIC METAMATERIALS AND NEGATIVE INDEX OF REFRACTION 144 4.3.3 CONSTRUCTING MAGNETIC METAMATERIALS 145 4.3.4 APPLICATIONS OF METAMATERIALS: THE PERFECT LENS 146 PROBLEMS 147 5 OPTICAL IMAGES 149 5.1 SIMPLE LENSES 149 5.2 THE HUMAN EYE 151 5.3 MAGNIFYING GLASS AND EYEPIECE 152 5.4 MICROSCOPES 154 5.4.1 RESOLVING POWER OF MICROSCOPES 155 5.4.1.1 RAYLEIGH CRITERION AND NUMERICAL APERTURE 155 5.4.1.2 ABBES THEORY OF RESOLUTION 156 5.4.1.3 EXPLOITING THE ABBE-RAYLEIGH RESOLUTION LIMIT 157 5.4.2 ANALYZING AND IMPROVING CONTRAST 159 5.4.2.1 THE MODULATION TRANSFER FUNCTION (MTF) 159 5.4.2.2 ENHANCING CONTRAST 160 5.5 SCANNING MICROSCOPY METHODS 161 5.5.1 DEPTH OF FOCUS AND CONFOCAL MICROSCOPY 161 5.5.2 SCANNING NEAR-FIELD OPTICAL MICROSCOPY (SNOM) 162 5.5.3 OVERCOMING THE RAYLEIGH-ABBE RESOLUTION LIMITS WITH LIGHT 163 5.5.3.1 SINGLE-MOLECULE DETECTION 164 5.5.3.2 PALM MICROSCOPY 165 5.5.3.3 STED MICROSCOPY 165 5.6 TELESCOPES 166 5.6.1 THEORETICAL RESOLVING POWER OF A TELESCOPE 166 5.6.2 MAGNIFICATION OF A TELESCOPE 167 5.6.3 IMAGE DISTORTIONS OF TELESCOPES 168 5.6.3.1 LENS TELESCOPES AND REFLECTOR TELESCOPES 168 5.6.3.2 ATMOSPHERIC TURBULENCE 169 5.7 LENSES: DESIGNS AND ABERRATIONS 169 5.7.1 TYPES OF LENSES 170 5.7.1.1 PLANAR CONVEX LENSES 170 5.7.1.2 BICONVEX LENSES AND DOUBLETS 171 5.7.1.3 MENISCUS LENSES 171 5.7.2 ABERRATIONS: SEIDEL ABERRATIONS 172 5.7.2.1 RAY PROPAGATION IN FIRST ORDER 172 5.7.2.2 RAY PROPAGATION IN THIRD ORDER 172 5.7.23 APERTURE ABERRATION OR SPHERICAL ABERRATION 173 5.7.2.4 ASTIGMATISM 174 5.7.2.5 COMA AND DISTORTION 175 5.7.3 CHROMATIC ABERRATION 176 PROBLEMS 177 6 COHERENCE AND INTERFEROMETRY 181 6.1 YOUNGS DOUBLE SLIT 181 6.2 COHERENCE AND CORRELATION 182 6.2.1 CORRELATION FUNCTIONS 183 6.2.2 BEAM SPLITTER 184 6.3 THE DOUBLE-SLIT EXPERIMENT 185 6.3.1 TRANSVERSE COHERENCE 186 6.3.2 OPTICAL OR DIFFRACTION GRATINGS 188 6.3.3 MONOCHROMATORS 190 6.4 MICHELSON INTERFEROMETER: LONGITUDINAL COHERENCE 191 6.4.1 LONGITUDINAL OR TEMPORAL COHERENCE 192 6.4.2 MACH-ZEHNDER AND SAGNAC INTERFEROMETERS 195 6.4.2.1 MACH-ZEHNDER INTERFEROMETER 195 6A.2.2 SAGNAC INTERFEROMETER 196 6.5 FABRY-PEROT INTERFEROMETER 197 6.5.1 FREE SPECTRAL RANGE, FINESSE, AND RESOLUTION 200 6.6 OPTICAL CAVITIES 202 6.6.1 DAMPING OF OPTICAL CAVITIES 202 6.6.2 MODES AND MODE MATCHING 203 6.6.3 RESONANCE FREQUENCIES OF OPTICAL CAVITIES 204 6.6.4 SYMMETRIC OPTICAL CAVITIES 205 6.6.5 OPTICAL CAVITIES: IMPORTANT SPECIAL CASES 205 6.6.5.1 PLANE PARALLEL CAVITY: /R = 0 205 6.6.5.2 CONFOCAL CAVITY: /R = 1 206 6.6.53 CONCENTRIC CAVITY: /R = 2 207 6.7 THIN OPTICAL FILMS 208 6.7.1 SINGLE-LAYER FILMS 208 6.7.1.1 MINIMAL REFLECTION: AR COATING, AR LAYER, AND A/4 FILM 209 6.7.1.2 REFLECTION: HIGHLY REFLECTIVE FILMS 209 6.7.2 MULTILAYER FILMS 209 6.8 HOLOGRAPHY 210 6.8.1 HOLOGRAPHIE RECORDING 211 6.8.2 HOLOGRAPHIE RECONSTRUCTION 212 6.8.2.1 ZEROTH ORDER 213 6.82.2 HALO 213 6.8.23 RECONSTRUCTED SIGNAL WAVE 213 6.8.2A CONJUGATED WAVE 213 6.8.3 PROPERTIES 214 6.8.3.1 THREE-DIMENSIONAL RECONSTRUCTION 214 6.83.2 PARTIAL RECONSTRUCTION 214 6.833 MAGNIFICATION 214 6.9 LASER SPECKLE (LASER GRANULATION) 214 6.9.1 REAL AND VIRTUAL SPECKLE PATTERNS 215 6.9.2 SPECKLE GRAIN SIZES 215 PROBLEMS 216 7 LIGHT AND MATTER 219 7.1 CLASSICAL RADIATION INTERACTION 220 7.1.1 LORENTZ OSCILLATORS 220 7.1.2 MACROSCOPIC POLARIZATION 224 7.1.2.1 LINEAR POLARIZATION AND MACROSCOPIC REFRACTIVE INDEX 225 7.1.2.2 ABSORPTION AND DISPERSION IN OPTICALLY THIN MEDIA 226 7.1.2.3 DENSE DIELECTRIC MEDIA AND NEAR FIELDS 227 7.2 TWO-LEVEL ATOMS 229 7.2.1 ARE THERE ANY ATOMS WITH ONLY TWO LEVELS? 229 7.2.2 DIPOLE INTERACTION 230 7.2.3 OPTICAL BLOCH EQUATIONS 232 7.2.4 PSEUDO-SPIN, PRECESSION, AND RABI NUTATION 234 7.2.5 MICROSCOPIC DIPOLES AND ENSEMBLES 235 7.2.6 OPTICAL BLOCH EQUATIONS WITH DAMPING 235 7.2.7 STEADY-STATE INVERSION AND POLARIZATION 236 7.2.7.1 STEADY-STATE INVERSION AND SATURATION INTENSITY 236 7.271.2 STEADY-STATE POLARIZATION 238 7.3 STIMULATED AND SPONTANEOUS RADIATION PROCESSES 239 7.3.1 STIMULATED EMISSION AND ABSORPTION 241 7.3.2 SPONTANEOUS EMISSION 242 7.4 INVERSION AND AMPLIFICATION 242 7.4.1 FOUR-, THREE-, AND TWO-LEVEL LASER SYSTEMS 243 7.4.2 GENERATION OF INVERSION 243 7.4.3 OPTICAL GAIN 244 7.4.4 THE HISTORICAL PATH TO THE LASER 245 PROBLEMS 246 8 THE LASER 249 8.1 THE CLASSIC SYSTEM: THE HE-NE LASER 251 8.1.1 CONSTRUCTION 251 8.1.1.1 AMPLIFIER 251 8.1.1.2 OPERATING CONDITIONS 252 8.1.1.3 THE LASER RESONATOR 253 8.1.2 MODE SELECTION IN THE HE-NE LASER 254 8.1.2.1 LASER LINE SELECTION 254 8.1.3 GAIN PROFILE, LASER FREQUENCY, AND SPECTRAL HOLES 255 8.1.4 THE SINGLE-FREQUENCY LASER 256 8.1.5 LASER POWER 257 8.1.6 SPECTRAL PROPERTIES OF THE HE-NE LASER 258 8.1.6.1 LASER LINEWIDTH 258 8.1.7 OPTICAL SPECTRAL ANALYSIS 259 8.1.7.1 THE FABRY-PEROT SPECTRUM ANALYZER 259 8.1.7.2 THE HETERODYNE METHOD 259 8.1.8 APPLICATIONS OF THE HE-NE LASER 261 8.2 OTHER GAS LASERS 261 8.2.1 THE ARGON LASER 261 8.2.1.1 THE AMPLIFIER 262 8.2.1.2 OPERATING CONDITIONS 262 8.2.1.3 FEATURES AND APPLICATIONS 263 8.2.2 METAL-VAPOR LASERS 263 8.2.3 MOLECULAR GAS LASERS 264 8.2.3.1 THE C 0 2 LASER 265 5.2.3.2 GAIN 265 5.2.3.3 OPERATING CONDITIONS 267 5.2.3.4 THE EXCIMER LASER 267 8.3 THE WORKHORSES: SOLID-STATE LASERS 268 8.3.1 OPTICAL PROPERTIES OF LASER CRYSTALS 268 8.3.2 RARE-EARTH IONS 269 8.4 SELECTED SOLID-STATE LASERS 271 8.4.1 THE NEODYMIUM LASER 271 8.4.1.1 THE NEODYMIUM AMPLIFIER 271 8.4.1.2 CONFIGURATION AND OPERATION 272 8.4.2 APPLICATIONS OF NEODYMIUM LASERS 273 8.4.2.1 FREQUENCY-DOUBLED NEODYMIUM LASERS 273 5.4.2.2 THE MONOLITHICALLY INTEGRATED LASER (MISER) 274 8.4.3 ERBIUM LASERS, ERBIUM-DOPED FIBER AMPLIFIERS (EDFAS) 275 8.4.4 FIBER LASERS 276 8.4.4.1 CLADDING PUMPING 276 5.4.4.2 FIBER BRAGG GRATINGS 277 8.4.5 YTTERBIUM LASERS: HIGHER POWER WITH THIN-DISC AND FIBER LASERS 278 8.5 TUNABLE LASERS WITH VIBRONIC STATES 279 8.5.1 TRANSITION-METAL IONS 279 8.5.2 COLOR CENTERS 280 8.5.3 DYES 281 8.6 TUNABLE RING LASERS 281 PROBLEMS 283 9 LASER DYNAMICS 285 9.1 BASIC LASER THEORY 285 9.1.1 THE RESONATOR FIELD 285 9.1.2 DAMPING OF THE RESONATOR FIELD 286 9.1.3 STEADY-STATE LASER OPERATION 288 9.1.3.1 SATURATED GAIN 289 9.1.3.2 MODE PULLING 289 9.1.3.3 FIELD STRENGTH AND NUMBER OF PHOTONS IN THE RESONATOR 290 9.1.3.4 LASER THRESHOLD 290 9.1.3.5 LASER POWER AND OUTCOUPLING 291 9.2 LASER RATE EQUATIONS 291 9.2.1 LASER SPIKING AND RELAXATION OSCILLATIONS 292 9.3 THRESHOLD-LESS LASERS AND MICRO-LASERS 295 9.4 LASER NOISE 298 9.4.1 AMPLITUDE AND PHASE NOISE 298 9.4.1.1 AMPLITUDE FLUCTUATIONS 298 9.4.1.2 PHASE FLUCTUATIONS 299 9.4.2 THE MICROSCOPIC ORIGIN OF LASER NOISE 301 9.4.3 LASER INTENSITY NOISE 302 9.4.3.1 QUANTUM LIMIT OF THE LASER AMPLITUDE 302 9A3.2 RELATIVE INTENSITY NOISE (RIN) 303 9.4.4 SCHAWLOW-TOWNES LINEWIDTH 304 9.5 PULSED LASERS 305 9.5.1 Q-SWITCH* 305 9.5.1.1 TECHNICAL Q-SWITCHES 306 9.5.1.2 CAVITY DUMPING 306 9.5.2 MODE LOCKING 306 9.5.3 METHODS OF MODE LOCKING 309 9.5.4 MEASUREMENT OF SHORT PULSES 312 9.5.5 TERA- AND PETAWATT LASERS 312 9.5.6 COHERENT WHITE LIGHT 313 9.5.7 FREQUENCY COMBS 315 PROBLEMS 316 10 SEMICONDUCTOR LASERS 319 10.1 SEMICONDUCTORS 319 10.1.1 ELECTRONS AND HOLES 319 10.1.2 DOPED SEMICONDUCTORS 320 10.1.3 PN JUNCTIONS 321 10.2 OPTICAL PROPERTIES OF SEMICONDUCTORS 322 10.2.1 SEMICONDUCTORS FOR OPTOELECTRONICS 322 10.2.2 ABSORPTION AND EMISSION OF LIGHT 323 10.2.3 INVERSION IN THE LASER DIODE 325 10.2.4 SMALL SIGNAL GAIN 327 10.2.5 HOMO- AND HETEROSTRUCTURES 329 10.3 THE HETEROSTRUCTURE LASER 330 10.3.1 CONSTRUCTION AND OPERATION 330 10.3.1.1 LASER CRYSTAL 330 10.3.1.2 LASER OPERATION 331 10.3.2 SPECTRAL PROPERTIES 332 10.3.2.1 EMISSION WAVELENGTH AND MODE PROFILE 332 10.3.2.2 ELECTRONIC WAVELENGTH CONTROL 333 10.3.3 QUANTUM FILMS, QUANTUM WIRES, AND QUANTUM DOTS 334 10.3.3.1 INVERSION IN THE QUANTUM FILM 334 10.3.3.2 MULTIPLE QUANTUM WELL (MQW) LASERS 336 10.3.3.3 QUANTUM WIRES AND QUANTUM DOTS 337 10.3.4 QUANTUM CASCADE LASERS 338 10.4 DYNAMIC PROPERTIES OF SEMICONDUCTOR LASERS 339 10.4.1 MODULATION PROPERTIES 340 10.4.1.1 AMPLITUDE MODULATION 340 10.4.1.2 PHASE MODULATION 341 10.4.2 LINEWIDTH OF THE SEMICONDUCTOR LASER 341 10.4.3 INJECTION LOCKING 342 10.5 LASER DIODES, DIODE LASERS, AND LASER SYSTEMS 345 10.5.1 TUNABLE DIODE LASERS (GRATING TUNED LASERS) 345 10.5.2 DFB AND DBR LASERS AND VCSEL 346 10.6 HIGH-POWER LASER DIODES 348 PROBLEMS 350 11 SENSORS FOR LIGHT 353 11.1 CHARACTERISTICS OF OPTICAL DETECTORS 354 11.1.1 SENSITIVITY 354 11.1.2 QUANTUM EFFICIENCY 354 11.1.3 SIGNAL-TO-NOISE RATIO 355 11.1.4 NOISE EQUIVALENT POWER (NEP) 356 11.1.5 DETECTIVITY D-STAR 356 11.1.6 RISE TIME 356 11.1.7 LINEARITY AND DYNAMIC RANGE 357 11.2 FLUCTUATING OPTOELECTRONIC QUANTITIES 357 11.2.1 DARK CURRENT NOISE 357 11.2.2 INTRINSIC AMPLIFIER NOISE 358 11.2.3 MEASURING AMPLIFIER NOISE 358 11.3 PHOTON NOISE AND DETECTIVITY LIMITS 359 11.3.1 PHOTON STATISTICS OF COHERENT LIGHT FIELDS 360 11.3.2 PHOTON STATISTICS IN THERMAL LIGHT FIELDS 361 11.3.3 SHOT NOISE LIMIT AND SQUARE-LAW* DETECTORS 363 11.4 THERMAL DETECTORS 364 11.4.1 THERMOPILES 365 11.4.2 BOLOMETERS 366 11.4.3 PYROELECTRIC DETECTORS 366 11.4.4 THE GOLAY CELL 366 11.5 QUANTUM SENSORS I: PHOTOMULTIPLIER TUBES 366 11.5.1 THE PHOTOELECTRIC EFFECT 366 11.5.2 PHOTOCATHODES 367 11.5.2.1 AMPLIFICATION 368 11.5.2.2 COUNTING MODE AND CURRENT MODE 368 11.5.2.3 NOISE PROPERTIES OF PMTS 369 11.5.2.4 MICROCHANNEL PLATES AND CHANNELTRONS 370 11.6 QUANTUM SENSORS II: SEMICONDUCTOR SENSORS 370 11.6.1 PHOTOCONDUCTORS 370 11.6.1.1 SENSITIVITY 371 11.6.1.2 NOISE PROPERTIES 372 11.6.2 PHOTODIODES OR PHOTOVOLTAIC DETECTORS 372 11.6.2.1 PN AND PIN DIODES 373 11.6.2.2 OPERATING MODES 373 11.6.3 AVALANCHE PHOTODIODES 374 11.7 POSITION AND IMAGE SENSORS 374 11.7.1 PHOTO-CAPACITORS 375 11.7.2 CCD SENSORS 375 11.7.3 IMAGE INTENSIFIES 377 PROBLEMS 377 12 LASER SPECTROSCOPY AND LASER COOLING 379 12.1 LASER-INDUCED FLUORESCENCE (LIF) 379 12.2 ABSORPTION AND DISPERSION 380 12.2.1 SATURATED ABSORPTION 381 12.3 THE WIDTH OF SPECTRAL LINES 382 12.3.1 NATURAL WIDTH AND HOMOGENEOUS LINEWIDTH 383 12.3.2 DOPPLER BROADENING AND INHOMOGENEOUS LINEWIDTH 383 12.3.3 PRESSURE BROADENING 385 12.3.4 TIME-OF-FLIGHT (TOF) BROADENING 386 12.4 DOPPLER-FREE SPECTROSCOPY 388 12.4.1 SPECTROSCOPY WITH MOLECULAR BEAMS 388 12.4.2 SATURATION SPECTROSCOPY 388 12.4.3 TWO-PHOTON SPECTROSCOPY 391 12.5 LIGHT FORCES 394 12.5.1 RADIATION PRESSURE IN A PROPAGATING WAVE 395 12.5.2 DAMPING FORCES 397 12.5.3 HEATING FORCES, DOPPLER LIMIT 399 12.5.4 DIPOLE FORCES IN A STANDING WAVE 401 12.5.5 GENERALIZATION 403 12.5.6 OPTICAL TWEEZERS 403 PROBLEMS 404 13 COHERENT LIGHT-MATTER INTERACTION 407 13.1 WEAK COUPLING AND STRONG COUPLING 407 13.1.1 AC STARK EFFECT AND DRESSED-ATOM MODEL 408 13.2 TRANSIENT PHENOMENA 410 13.2.1 K PULSES 411 13.2.2 FREE INDUCTION DECAY 411 13.2.3 PHOTON ECHO 413 13.2.4 QUANTUM BEATS 414 13.2.5 WAVE PACKETS 415 14 PHOTONS: AN INTRODUCTION TO QUANTUM OPTICS 417 14.1 DOES LIGHT EXHIBIT QUANTUM CHARACTER? 417 14.2 QUANTIZATION OF THE ELECTROMAGNETIC FIELD 418 14.3 SPONTANEOUS EMISSION 421 14.3.1 VACUUM FLUCTUATIONS PERTURB EXCITED ATOMS 422 14.3.2 WEISSKOPF AND WIGNER THEORY OF SPONTANEOUS EMISSION 423 14.3.3 SUPPRESSION OF SPONTANEOUS EMISSION 425 14.3.4 INTERPRETATION OF SPONTANEOUS EMISSION 426 14.3.5 OPEN QUANTUM SYSTEMS AND RESERVOIRS 426 14.4 RESONANCE FLUORESCENCE 427 14.4.1 THE SPECTRUM OF RESONANCE FLUORESCENCE 427 14.4.2 SPECTRA AND CORRELATION FUNCTIONS 428 14.4.3 SPECTRA AND QUANTUM FLUCTUATIONS 431 14.4.4 COHERENT AND INCOHERENT CONTRIBUTIONS OF RESONANCE FLUORESCENCE 432 14.4.4.1 THE MOLLOW TRIPLET 433 14.5 LIGHT FIELDS IN QUANTUM OPTICS 435 14.5.1 FLUCTUATING LIGHT FIELDS 435 14.5.1.1 FIRST-ORDER COHERENCE 435 14.5.1.2 SECOND-ORDER COHERENCE 436 14.5.1.3 HANBURY BROWN AND TWISS EXPERIMENT 437 14.5.2 QUANTUM PROPERTIES OF IMPORTANT LIGHT FIELDS 438 14.5.2.1 FOCK STATES OR NUMBER STATES 439 14.5.2.2 COHERENT LIGHT FIELDS AND LASER LIGHT 439 14.5.2.3 THERMAL LIGHT FIELDS 441 14.5.3 PHOTON NUMBER DISTRIBUTION 441 14.5.4 BUNCHING AND ANTI-BUNCHING 443 14.5.4.1 BUNCHING 443 14.5.4.2 ANTI-BUNCHING 443 14.6 TWO-PHOTON OPTICS 444 14.6.1 SPONTANEOUS PARAMETRIC FLUORESCENCE, SPDC SOURCES 445 14.6.2 HONG-OU-MANDEL INTERFEROMETER 446 14.7 ENTANGLED PHOTONS 448 14.7.1 ENTANGLED STATES ACCORDING TO EINSTEIN-PODOLSKY-ROSEN 448 14.7.1.1 THE EINSTEIN-PODOLSKY-ROSEN (EPR) PARADOX 448 14.7.2 BELLS INEQUALITY 450 14.7.3 BELLS INEQUALITY AND QUANTUM OPTICS 451 14.7.4 POLARIZATION-ENTANGLED PHOTON PAIRS 452 14.7.5 A SIMPLE BELL EXPERIMENT 453 PROBLEMS 455 15 NONLINEAR OPTICS I: OPTICAL MIXING PROCESSES 457 15.1 CHARGED ANHARMONIC OSCILLATORS 457 15.2 SECOND-ORDER NONLINEAR SUSCEPTIBILITY 459 15.2.1 MIXING OPTICAL FIELDS: THREE-WAVE MIXING 459 15.2.2 SYMMETRY PROPERTIES OF SUSCEPTIBILITY 461 15.2.2.1 INTRINSIC PERMUTATION SYMMETRY 461 15.2.2.2 REAL ELECTROMAGNETIC FIELDS 461 15.2.2.3 LOSS-FREE MEDIA 461 15.2.3 TWO-WAVE POLARIZATION 462 15.2.3.1 CONTRACTED NOTATION 462 15.2.3.2 KLEINMAN SYMMETRY 462 15.2.4 CRYSTAL SYMMETRY 463 15.2.5 EFFECTIVE VALUE OF THE NONLINEAR D COEFFICIENT 463 15.3 WAVE PROPAGATION IN NONLINEAR MEDIA 464 15.3.1 COUPLED AMPLITUDE EQUATIONS 464 15.3.2 COUPLED AMPLITUDES FOR THREE-WAVE MIXING 465 15.3.3 ENERGY CONSERVATION 466 15.4 FREQUENCY DOUBLING 466 15.4.1 WEAK CONVERSION 467 15.4.2 STRONG CONVERSION 468 15.4.3 PHASE MATCHING IN NONLINEAR AND BIREFRINGENT CRYSTALS 469 15.4.3.1 ANGLE OR CRITICAL PHASE MATCHING 471 15.4.3.2 NONCRITICAL OR 90 PHASE MATCHING 471 15.4.4 FREQUENCY DOUBLING WITH GAUSSIAN BEAMS 472 15.4.5 RESONANT FREQUENCY DOUBLING 474 15.4.5.1 PASSIVE RESONATORS 474 15.4.6 QUASI-PHASE MATCHING 476 15.5 SUM AND DIFFERENCE FREQUENCY 477 15.5.1 SUM FREQUENCY 477 15.5.2 DIFFERENCE FREQUENCY AND PARAMETRIC GAIN 478 15.6 OPTICAL PARAMETRIC OSCILLATORS 479 PROBLEMS 482 16 NONLINEAR OPTICS II: FOUR-WAVE MIXING 485 16.1 FREQUENCY TRIPLING IN GASES 485 16.2 NONLINEAR REFRACTION COEFFICIENT (OPTICAL KERR EFFECT) 487 16.2.1 SELF-FOCUSING 488 16.2.1.1 KERR LENS MODE LOCKING 489 16.2.1.2 SPATIAL SOLITONS 490 16.2.1.3 NONLINEAR OPTICAL DEVICES 491 16.2.2 PHASE CONJUGATION 491 16.3 SELF-PHASE MODULATION 494 PROBLEMS 495 A MATHEMATICS FOR OPTICS 497 A.L SPECTRAL ANALYSIS OF FLUCTUATING MEASURABLE QUANTITIES 497 A. 1.1 CORRELATIONS 500 A.1.2 SCHOTTKY FORMULA 501 A.2 TIME AVERAGING FORMULA 502 B SUPPLEMENTS IN QUANTUM MECHANICS 503 B.L TEMPORAL EVOLUTION OF A TWO-STATE SYSTEM 503 B.L.L TWO-LEVEL ATOM 503 B.1.2 TEMPORAL DEVELOPMENT OF PURE STATES 503 B.2 DENSITY MATRIX FORMALISM 504 B.3 DENSITY OF STATES 505 BIBLIOGRAPHY 507 INDEX 519
any_adam_object	1
author	Meschede, Dieter 1954-
author_GND	(DE-588)128807695
author_facet	Meschede, Dieter 1954-
author_role	aut
author_sort	Meschede, Dieter 1954-
author_variant	d m dm
building	Verbundindex
bvnumber	BV043647699
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classification_tum	PHY 350f
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dewey-full	530
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	530 - Physics
dewey-raw	530
dewey-search	530
dewey-sort	3530
dewey-tens	530 - Physics
discipline	Physik
edition	Third, revised and enlarged edition
format	Book
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indexdate	2024-07-10T07:31:28Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527413317
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029061356
oclc_num	992556645
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physical	xix, 528 Seiten Illustrationen, Diagramme 25 cm
publishDate	2017
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publisher	Wiley-VCH
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spelling	Meschede, Dieter 1954- Verfasser (DE-588)128807695 aut Optics, light and lasers the practical approach to modern aspects of photonics and laser physics Dieter Meschede Third, revised and enlarged edition Weinheim Wiley-VCH [2017] © 2017 xix, 528 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Licht (DE-588)4035596-2 gnd rswk-swf Optik (DE-588)4043650-0 gnd rswk-swf Laser (DE-588)4034610-9 gnd rswk-swf Photonik (DE-588)4243979-6 gnd rswk-swf Chemie Chemistry Electrical & Electronics Engineering Elektrotechnik u. Elektronik Materials Characterization Materials Science Materialwissenschaften Optical Communications Optik u. Photonik Optische Nachrichtentechnik Physik Spectroscopy Spektroskopie Werkstoffprüfung (DE-588)4123623-3 Lehrbuch gnd-content Optik (DE-588)4043650-0 s DE-604 Licht (DE-588)4035596-2 s Photonik (DE-588)4243979-6 s Laser (DE-588)4034610-9 s Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, Mobi 978-3-527-68550-9 Erscheint auch als Online-Ausgabe, ePDF 978-3-527-68551-6 Erscheint auch als Online-Ausgabe, ePub 978-3-527-68549-3 Erscheint auch als Online-Ausgabe, oBook 978-3-527-68548-6 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029061356&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Meschede, Dieter 1954- Optics, light and lasers the practical approach to modern aspects of photonics and laser physics Licht (DE-588)4035596-2 gnd Optik (DE-588)4043650-0 gnd Laser (DE-588)4034610-9 gnd Photonik (DE-588)4243979-6 gnd
subject_GND	(DE-588)4035596-2 (DE-588)4043650-0 (DE-588)4034610-9 (DE-588)4243979-6 (DE-588)4123623-3
title	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics
title_auth	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics
title_exact_search	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics
title_full	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics Dieter Meschede
title_fullStr	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics Dieter Meschede
title_full_unstemmed	Optics, light and lasers the practical approach to modern aspects of photonics and laser physics Dieter Meschede
title_short	Optics, light and lasers
title_sort	optics light and lasers the practical approach to modern aspects of photonics and laser physics
title_sub	the practical approach to modern aspects of photonics and laser physics
topic	Licht (DE-588)4035596-2 gnd Optik (DE-588)4043650-0 gnd Laser (DE-588)4034610-9 gnd Photonik (DE-588)4243979-6 gnd
topic_facet	Licht Optik Laser Photonik Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029061356&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT meschededieter opticslightandlasersthepracticalapproachtomodernaspectsofphotonicsandlaserphysics AT wileyvch opticslightandlasersthepracticalapproachtomodernaspectsofphotonicsandlaserphysics

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