相干光学

内容概要

This updated and enlarged new edition
presents a comprehensive and dedicated overview of the fundamentals
and modem applications of coherent optics. Starting with the basic
principles of coherence,the authors give detailed insights into the
theory and applications of interferometry, holography, Fourier
optics, and nonlinear optical phenomena. Especially, the chapters
on current topics in nonlinear optics provide an understanding of
modern implementations.Numerous examples and exercises with
complete solutions help the readers to deepen their knowledge. This
completely revised edition is intended for advanced students and
active scientists working in this field.

作者简介

作者：(德国)W.Lauterborn，(德国)T.Kurz

书籍目录

1.History of Optics
  1.1 Past
  1.2 Present
  1.3  Future
    Problems
2.The Main Areas of Optics
    2.1 Geometrical Optics
  2.2 Wave Optics
  2.3 Quantum Optics
  2.4 Statistical Optics
3.Fundamentals of Wave Optics
  3.1 Maxwell's Equations
  3.2 The Wave Equation
  3.3 Waves
    3.3.1 One-Dimensional Waves
    3.3.2 Plane Waves
    3.3.3 Spherical Waves
    3.3.4 Bessel Waves
    3.3.5 Evanescent Waves
    3.3.6 Polarized Waves
  3.4 Intensity of a Light Wave
    Problems
4.Coherence
  4.1 Temporal Coherence
  4.2 Spatial Coherence
  4.3 Spatiotemporal Coherence
  4.4 Complex Representation of the Light Field
  4.5 Stellar Interferometry
  4.6 Fourier Spectroscopy
  4.7 Intensity Correlation
    Problems
5.Multiple-Beam Interference
  5.1 Fabry-Perot Interferometer
  5,2 Mode Spectrum of a Laser
    5.2.1 Interference Spectroscopy
    5.2.2 Difference-Frequency Analysis
  5.3 Dual-Recycling Interferometer
    Problems
6.Speckles
  6.1 Intensity Statistics
  6,2 Speckle Sizes
  6,3 Speckle Photography
    6.3.1 Double-Exposure Technique
    6.3,2 Time-Average Technique
  6,4 Flow Diagnostics
  6.5 Stellar Speckle Interferometry
    Problems
7.Holography
  7.1 Principle of Holography
    7.1.1 Hologram Recording
    7.1.2 Image Reconstruction
    7.1.3 Location of the Images
    7.1,4 Phase Conjugation
  7.2 The Imaging Equations of Holography
  7.3 Holographic Arrangements
    7.3.1 In-line Holograms
    7.3.2 Reflection Holograms
    7.3.3 Transmission Holograms
    7,3.4 White-Light Holograms
    7.3.5 Rainbow Holograms
  7.4 Holographic Cinematography
  7.5 Digital Holography
    7,5,1 Direct Simulation
    7.5.2 Simulation with Square Light Waves
    7.5.3 Digital hologram recording and reconstruction .
    Problems
 8.Interferometry
  8.1 Mach-Zehnder Interferometer
  8.2 Sagnac Interferometer
  8.3 Holographic Interferometry
    8.3.1 Real-Time Method
    8.3.2 Double-Exposure Method
    8.3.3 Time-Average Method
  8.4 Theory of Holographic Interferometry
    8.4.1 Real-Time and Double-Exposure Method
    8.4.2 Time-Average Method
    8.4.3 Time-Average Method in Real Time
    Problems
9.Fourier Optics
  9.1 Scalar Diffraction Theory
    9.1.1 Fresnel Approximation
    9.1.2 Fraunhofer Approximation
  9.2 Fourier Transform by a Lens
  9.3 Optical Fourier Spectra
    9.3.1 Point Source
    9.3.2 Plane Wave
    9.3.3 Infinitely Long Slit
    9.3.4 Two Point Sources
    9.3.5 Cosine Grating
    9.3.6 Circular Aperture
    9.3.7 Compound Diffracting Systems
  9.4 Coherent Optical Filtering
    9.4.1 Low-Pass Filter or Spatial Frequency Filter
    9.4.2 High-Pass Filter or Dark Field Method
    9.4.3 Phase Filter or Phase Contrast Method
    9.4.4 Half-Plane Filter or Schlieren Method
    9.4.5 Raster Elimination
    9.4.6 Demonstration Experiment
    9.4.7 Holographic Filters
    9.4.8 Pattern Recognition
    Problems
10.The Laser
  10.1 The Laser Principle
  10.2 Laser Rate Equations
  10.3 Stationary Operation
  10.4 Stability Analysis
  10.5 Transient dynamics
    10.5.1 Relaxation Oscillations
    10.5.2 Q-Switching
    10.5.3 Cavity Dumping
  10.6 Chaotic Dynamics
  10.7 Synchronization
    Problems
11.Ultrafast Optics
  11.1 Properties of Ultrashort Pulses
    11.1.1 Time-Bandwidth Product
    11.1.2 Chirped Pulses
  11.2 Generation of Ultrashort Pulses
    11.2.1 Principle of Mode Locking
    11.2.2 Methods of Mode Locking
    11.2.3 Sonoluminescence
    11.2.4 Chirped Pulse Amplification
  11.3 Measurement of Ultrashort Pulses
  11.4 Optical Gating
  11.5 Optical Coherence Tomography
    Problems
12.Nonlinear Optics
  12.1 Two-Wave Interaction
    12.1.1 Two-Photon Absorption
    12.1.2 Two-Photon Ionization
  12.2 Three-Wave Interaction
    12.2.1 Second-Harmonic Generation
    12.2.2 Sum-Frequency Generation
    12.2.3 Difference-Frequency Generation
    12.2.4 Optical Parametric Amplifier
  12.3 Four-Wave Interaction
  12.4 Multi-photon Interaction
    12.4.1 Frequency Multiplication
    12.4.2 Multi-photon Absorption and Ionization
  12.5 Further Nonlinear Optical Phenomena
  12.6 Nonlinear Potentials
  12.7 Interaction of Light Waves
    12.7.1 Three-Wave Interaciion
    12.7.2 Scalar Three-Wave Interaction
    12.7.3 Second-Harmonic Generation
    12.7.4 Optical Parametric Amplifier
    12.7.5 Optical Parametric Oscillator
    12.7.6 Three-Wave Interaction in the Photon Picture.
    Problems
 13.Fiber Optics
   13.1 Glass Fibers
    13.1.1 Profile
    13.1.2 Guided Waves
     13.1.3 Attenuation
   13.2 Fiber Sensors
   13.3 Optical Solitons
    13.3.1 Dispersion
    13.3.2 Nonlinearity
  13.4 Fiber-Optic Signal Processing
    Problems
A.The Fourier Transform
    A.1 One-Dimensional Fourier Transform
  A.2 Two-Dimensional Fourier Transform
  A.3 Convolution and Autocorrelation
  A.4 Properties of the Fourier Transform
  A.5 Selected Functions and Their Fourier Transforms
    Problems
B.Solutions of Problems
References
Index

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