Verfügbarkeit: Principles of laser dynamics

Principles of laser dynamics:

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1. Verfasser:	Chanin, Jakov I. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam u.a. Elsevier 1995
Schlagworte:	Lasers Dynamik Laser Nichtlineare Dynamik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 407 S. Ill., graph. Darst.
ISBN:	0444896961

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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS FOREWORD V CHAPTER 1. QUANTUM OSCILLATORS: GENERAL CONSIDERATIONS 1 1.1. PRINCIPLE OF OPERATION AND PRACTICAL IMPLEMENTATION 2 1.1.1. INDUCED AND SPONTANEOUS TRANSITIONS 2 1.1.2. METHODS OF PRODUCING AN INVERTED POPULATION 4 1.2. TIME-DEPENDENT PROCESSES IN QUANTUM OSCILLATORS 5 1.2.1. DYNAMIC PROPERTIES OF LASERS AND THEIR RELATION TO RELAXATION RATES 5 1.2.2. WIDESPREAD TYPES OF LASERS 7 1.2.3. CLASS A LASERS: EXPERIMENTAL FACTS 19 1.2.4. CLASS B LASERS: EXPERIMENTAL FACTS 23 RUBY LASERS 24 NEODYMIUM LASERS 30 SEMICONDUCTOR LASERS . 31 MOLECULAR GAS LASERS 32 1.2.5. CLASS C LASERS: EXPERIMENTAL FACTS 34 CHAPTER 2. BASIC EQUATIONS FOR THE DYNAMICAL BEHAVIOR OF LASERS 41 2.1. EQUATIONS FOR THE ELECTROMAGNETIC FIELD 42 2.1.1. WAVE EQUATION 42 2.1.2. MODAL DECOMPOSITION 44 2.2. EQUATIONS FOR THE DYNAMICS OF THE MATERIAL 49 2.2.1. QUANTUM KINETIC EQUATIONS 50 2.2.2. TWO-LEVEL MEDIUM 51 2.2.3. THREE-LEVEL MEDIUM: COHERENT PUMPING 52 2.2.4. THREE- AND FOUR-LEVEL MEDIA. TRANSITION TO AN EQUIVALENT TWO-LEVEL DESCRIPTION 54 2.3. DYNAMICAL MODELS OF LASERS 57 2.3.1. SELF-CONSISTENT SEMICLASSICAL SET OF EQUATIONS: THE MAXWELL-BLOCH EQUATIONS 57 2.3.2. EQUATIONS FOR QUADRATIC QUANTITIES 58 2.3.3. ADIABATIC ELIMINATION OF THE POLARIZATION. THE RATE EQUATIONS OF A SINGLE-MODE LASER 59 2.3.4. COMBINATION TONE MODE-MODE COUPLING. THE RATE EQUATIONS OF MULTIMODE LASERS 62 2.4. INHOMOGENEOUSLY BROADENED MODELS 66 2.4.1. MATERIAL EQUATIONS SPECIALIZED TO AN ENSEMBLE OF MOVING ATOMS 67 2.4.2. SPECTRAL CROSS-RELAXATION 69 2.4.3. ADIABATIC MODELS OF GAS LASERS 70 2.4.4. INHOMOGENEOUS BROADENING IN AN ENSEMBLE OF FIXED ATOMS 76 2.5. MODELS OF SINGLE-FREQUENCY RING-CAVITY LASERS 78 2.5.1. THE RING-CAVITY FIELD EQUATIONS 78 2.5.2. CLASS A RING GAS LASER 79 2.5.3. CLASS B RING LASER 81 2.6. MODELS OF LASERS USING THE MEDIA WITH BAND-LIKE ENERGY STRUCTURE 82 2.6.1. MOLECULAR LASERS 83 2.6.2. SEMICONDUCTOR LASERS 87 CHAPTER 3. DYNAMIC PROPERTIES OF AUTONOMOUS NONADIABATIC LASERS 93 3.1. INSTABILITIES AND CHAOS IN A TRAVELING-WAVE SINGLE-MODE LASER (LORENZ-HAKEN MODEL) 95 3.1.1. STARTING EQUATIONS 96 3.1.2. BIFURCATIONS AND THEIR SEQUENCES 97 3.1.3. PARAMETRIC ORIGIN OF THE SECOND LASER THRESHOLD 103 3.1.4. EFFECT OF DETUNING ON THE LASER DYNAMIC PROPERTIES 105 3.1.5. PHASE DYNAMICS OF A SINGLE-MODE LASER 109 3.2. PROCESSES IN A TRAVELING-WAVE MULTIMODE LASER ILL 33. DYNAMICAL PROPERTIES OF AUTONOMOUS THREE-LEVEL LASERS 114 3.3.1. SELF-CONSISTENT MODEL OF COHERENTLY PUMPED LASER. WAYS TO MODEL SIMPLIFICATION 115 3.3.2. SELF-EXCITATION CONDITIONS OF A THREE-LEVEL LASER 116 3.3.3. LASING MODES OF A THREE-LEVEL LASER 119 3.3.4. EXPERIMENTAL INVESTIGATIONS OF OPTICALLY PUMPED AMMONIA LASERS 123 3.4. EFFECT OF INHOMOGENEOUS BROADENING ON THE LASER DYNAMIC CHARACTERISTICS .... 127 3.4.1. LOWERING OF THE INSTABILITY THRESHOLD 127 3.4.2. TIME-DEPENDENT LASER MODES 132 CHAPTER 4. ADIABATIC AND SEMIADIABATIC LASER THEORIES 137 4.1. TRAVELING WAVE LASER WITH HOMOGENEOUS ACTIVE MEDIUM 138 4.1.1. STEADY STATES AND RELAXATION OSCILLATIONS 138 4.1.2. PHASE PORTRAIT OF LASER. SPIKE CHARACTERISTICS 140 4.1.3. LINEAR STAGE OF LASING 147 4.2. SINGLE-MODE STANDING-WAVE LASER 150 4.3. MULTIMODE LASERS: THE RATE EQUATION APPROACH 154 4.3.1. STEADY STATE SPECTRUM OF STANDING WAVE LASER MODES 154 4.3.2. SPECTRUM OF RELAXATION OSCILLATIONS 160 4.3.3. UNIQUENESS OF A STABLE STEADY-STATE SOLUTION 163 4.3.4. FEATURES OF SPIKING IN MULTIMODE LASERS 165 4.3.5. ONSET OF LASER SPECTRUM 167 4.3.6. ALTERNATIVE MECHANISMS OF LASER MULTIMODALITY 170 4.4. COMBINATION TONE MODE-MODE COUPLING AND ITS INFLUENCE ON LASER DYNAMICS .. 173 4.4.1. COMPETITION BETWEEN DISPERSION AND NONLINEARITY OF LASER MEDIUM 173 4.4.2. INSTABILITIES IN LASERS DUE TO THE NONLINEAR COUPLING OF MODES. SMALL NUMBER OF RELATIVELY CLOSE-FREQUENCY MODES 175 4.4.3. INSTABILITIES IN LASERS DUE TO THE NONLINEAR COUPLING OF MODES. LARGE NUMBER OF FAR-FREQUENCY MODES 178 4.5. INHOMOGENEOUSLY BROADENED SOLID-STATE LASERS 183 4.5.1. STEADY-STATE SOLUTION IN THE SPATIALLY UNIFORM FIELD APPROXIMATION: THE THRESHOLD FOR LASER SPECTRUM SPLITTING 183 4.5.2. CONNECTION BETWEEN THE SPATIAL MODE STRUCTURE AND THE SPECTRAL STRUCTURE OF LASER EMISSION 188 4.5.3. TRANSIENT IN THE PRESENCE OF CROSS-RELAXATION 192 4.6. ATOMIC GAS LASER 194 4.6.1. ELEMENTS OF THE ADIABATIC (LAMB S AND BENNET S) THEORY OF LASER DYNAMICS 194 4.6.2. TIME-DEPENDENT REGIMES OF INHOMOGENEOUSLY BROADENED MULTIMODE LASERS 200 CHAPTER 5. LASERS WITH QUASI-FREQUENCY-DEGENERATE MODES: TWO-MODE MODELS 203 5.1. BIDIRECTIONAL CLASS A GAS LASER 205 5.1.1. COMPETITION OF FREQUENCY-DEGENERATE COUNTERRUNNING WAVES 206 5.1.2. COUNTER RUNNING WAVE LOCKING 210 5.2. BIDIRECTIONAL CLASS B LASER 213 5.2.1. STEADY STATES IN THE ABSENCE OF BACKSCATTERING AND THEIR STABILITY 213 5.2.2. INFLUENCE OF FINE STRUCTURE OF THE GAIN LINE ON THE STABILITY OF THE STEADY STATES 218 5.2.3. STEADY STATES IN THE PRESENCE OF BACKSCATTERING AND THEIR STABILITY 222 5.2.4. COMPETITION OF TWO INSTABILITY MECHANISMS 225 5.2.5. ROLE OF PHASE NONRECIPROCITY IN THE DYNAMICS OF A CLASS B RING LASER .. 226 5.2.6. FREQUENCY DYNAMICS OF A BIDIRECTIONAL RING LASER 232 5.3. TWO-MODE STANDING WAVE LASER 235 5.3.1. EQUATIONS OF CLASS B TWO-MOD E LASER 235 5.3.2. STEADY-STATE SOLUTIONS AND RELAXATION OSCILLATIONS 238 CHAPTER 6. NONAUTONOMOUS LASER MODELS 245 6.1. LASERS WITH PERIODIC PARAMETER MODULATION 246 6.1.1. LINEAR RESPONSE OF A SINGLE-MODE LASER TO LOW-FREQUENCY MODULATION . . 246 6.1.2. LINEAR RESPONSE OF A MULTIMODE LASER TO LOW-FREQUENCY LOSS MODULATION 249 6.1.3. NONLINEAR RESPONSE OF A SINGLE-MODE LASER TO PERIODIC LOSS MODULATION . 251 6.1.4. BIFURCATIONS AND CHAOS 254 6.2. LASER WITH STEADY ADIABATIC VARIATION OF PARAMETERS 263 6.2.1. MONOTONIC ADIABATIC VARIATION OF THE LOSSES 263 6.2.2. SWEEPING OF DETUNING 268 6.3. SPECTRALLY SWEPT LASERS 270 6.3.1. PRINCIPLES OF OPERATION AND DYNAMICAL PROPERTIES OF SPECTRALLY SWEPT LASERS 270 6.3.2. THEORETICAL MODEL OF A SPECTRALLY SWEPT LASER 272 6.3.3. DYNAMICS OF A SPECTRALLY SWEPT LASER AT THE LINEAR STAGE 274 6.3.4. THRESHOLD CHARACTERISTICS OF A SPECTRALLY SWEPT LASER 279 6.3.5. DYNAMIC TUNING OF A SPECTRALLY SWEPT LASER 281 6.4. MECHANISMS OF UNDAMPED PULSATIONS IN SOLID-STATE FREE-RUNNING LASERS 283 6.4.1. ORIGIN OF THE PULSATIONS OF A TWO-LEVEL PARAMAGNETIC MASER 284 6.4.2. LASER PARAMETER OSCILLATIONS UNDER FREE-RUNNING CONDITIONS 286 6.4.3. INSTABILITIES DUE TO SWEEPING OF THE CAVITY EIGENFREQUENCY 288 6.4.4. ROLE OF SPATIAL EFFECTS 290 6.5. THE GIANT PULSE REGIME (Q-SWITCHING) 290 6.5.1. ACTIVE METHODS OF GENERATING GIANT PULSES AND THEIR CHARACTERISTICS .... 291 6.5.2. PULSE DELAY TIME WITH INSTANTANEOUS Q-SWITCHING 293 6.5.3. ENERGY CHARACTERISTICS OF A GIANT PULSE 295 6.5.4. PULSE DURATION AND SHAPE 296 6.5.5. ANGULAR AND FREQUENCY SPECTRA OF A GIANT PULSE WITH INSTANTANEOUS Q-SWITCHING 299 CHAPTER 7. LASERS WITH NONLINEAR LOSSES 305 7.1. ELEMENTS OF THE GENERAL THEORY OF LASERS WITH SELF-CONTROLLED LOSSES 306 7.2. LASER WITH A NONLINEAR ABSORBER 311 7.2.1. TWO-LEVEL RATE EQUATION MODEL OF LASER WITH A NONLINEAR FILTER. STEADY STATES AND THEIR STABILITY 312 7.2.2. NONLINEAR PULSATIONS IN A LASER WITH SATURABLE ABSORBER 319 7.2.3. EXPERIMENTS WITH A CO2 LASER. THE RATE EQUATION MODEL OF A THREE-LEVEL LASER WITH A TWO-LEVEL NONLINEAR FILTER 326 7.2.4. GIANT PULSE GENERATION WITH PASSIVE Q-SWITCHING 329 7.3. LASER WITH A NONLINEAR DIELECTRIC 332 7.3.1. EXAMPLES SHOWING THE INFLUENCE OF THE REFRACTIVE INDEX NONLINEARITY ON LASER DYNAMICS 332 7.3.2. PASSIVE MODULATION OF DIFFRACTION LOSSES BY A DIELECTRIC WITH CUBIC NONLINEARITY (KERR MEDIUM INSIDE A CAVITY WITH APERTURE) 333 7.3.3. PASSIVE MODULATION OF THE MODE FILLING FACTOR (KERR MEDIUM INSIDE A CAVITY WITHOUT APERTURE) 337 7.4. PASSIVE MODE LOCKING IN LASERS 340 7.4.1. ROLE OF THE LASER MEDIUM NONLINEARITY IN MODE LOCKING 341 7.4.2. THRESHOLD CONDITIONS OF PASSIVE MODE LOCKING 343 7.5. PROCESSES IN A TRAVELING WAVE LASER WITH SATURABLE ABSORBER 345 7.5.1. RATE EQUATION MODEL OF A TRAVELING WAVE LASER WITHOUT BULK LOSSES .... 346 7.5.2. INSTABILITY THRESHOLD OF SINGLE-FREQUENCY OPERATION OF A TRAVELING WAVE LASER WITH NONLINEAR FILTER 351 7.5.3. SOFT AND HARD REGIMES OF ULTRASHORT PULSE FORMATION IN LASERS WITH NONLINEAR FILTERS 354 REFERENCES 359 GLOSSARY 375 SYMBOLS 379 AUTHOR INDEX 387 SUBJECT INDEX 399
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spelling	Chanin, Jakov I. Verfasser aut Principles of laser dynamics ed. by Y. I. Khanin Amsterdam u.a. Elsevier 1995 XII, 407 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Lasers Dynamik (DE-588)4013384-9 gnd rswk-swf Laser (DE-588)4034610-9 gnd rswk-swf Nichtlineare Dynamik (DE-588)4126141-0 gnd rswk-swf Laser (DE-588)4034610-9 s Dynamik (DE-588)4013384-9 s DE-604 Nichtlineare Dynamik (DE-588)4126141-0 s OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007240510&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Chanin, Jakov I. Principles of laser dynamics Lasers Dynamik (DE-588)4013384-9 gnd Laser (DE-588)4034610-9 gnd Nichtlineare Dynamik (DE-588)4126141-0 gnd
subject_GND	(DE-588)4013384-9 (DE-588)4034610-9 (DE-588)4126141-0
title	Principles of laser dynamics
title_auth	Principles of laser dynamics
title_exact_search	Principles of laser dynamics
title_full	Principles of laser dynamics ed. by Y. I. Khanin
title_fullStr	Principles of laser dynamics ed. by Y. I. Khanin
title_full_unstemmed	Principles of laser dynamics ed. by Y. I. Khanin
title_short	Principles of laser dynamics
title_sort	principles of laser dynamics
topic	Lasers Dynamik (DE-588)4013384-9 gnd Laser (DE-588)4034610-9 gnd Nichtlineare Dynamik (DE-588)4126141-0 gnd
topic_facet	Lasers Dynamik Laser Nichtlineare Dynamik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007240510&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT chaninjakovi principlesoflaserdynamics

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