[光学手册卷IV].Handbook.of.Optics,Third.Edition.pdf

HANDBOOK OF OPTICS. THIRD EDITION. Volume IV. Optical Properties of Materials, Nonlinear Optics, Quantum Optics

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CONTENTS
Contributors         xiii
Brief Contents of All Volumes         xv
Editors’ Preface         xxi
Preface to Volume IV         xxiii
Glossary and Fundamental Constants         xxv
Part 1.  Properties
Chapter 1.  Optical Properties of Water  Curtis D. Mobley  1.3
1.1      Introduction    /    1.3
1.2      Terminology, Notation, and Defi nitions    /    1.3
1.3      Radiometric Quantities Useful in Hydrologic Optics    /    1.4
1.4      Inherent Optical Properties    /    1.9
1.5      Apparent Optical Properties    /    1.12
1.6      The Optically Signifi cant Constituents of Natural Waters    /    1.13
1.7      Particle Size Distributions    /    1.15
1.8      Electromagnetic Properties of Water    /    1.16
1.9      Index of Refraction    /    1.18
1.10    Measurement of Absorption    /    1.20
1.11    Absorption by Pure Sea Water    /    1.21
1.12    Absorption by Dissolved Organic Matter    /    1.22
1.13    Absorption by Phytoplankton    /    1.23
1.14    Absorption by Organic Detritus    /    1.25
1.15    Bio-Optical Models for Absorption    /    1.27
1.16    Measurement of Scattering    /    1.29
1.17    Scattering by Pure Water and by Pure Sea Water    /    1.30
1.18    Scattering by Particles    /    1.30
1.19    Wavelength Dependence of Scattering: Bio-Optical Models    /    1.35
1.20    Beam Attenuation    /    1.40
1.21    Diffuse Attenuation and Jerlov Water Types    /    1.42
1.22    Irradiance Refl ectance and Remote Sensing    /    1.46
1.23    Inelastic Scattering and Polarization    /    1.47
1.24    Acknowledgments    /    1.50
1.25    References    /    1.50
Chapter 2.  Properties of Crystals and Glasses  William J. Tropf,
                   Michael E. Thomas, and Eric W. Rogala  2.1
2.1      Glossary    /    2.1
2.2      Introduction    /    2.3
2.3      Optical Materials    /    2.4
2.4      Properties of Materials    /    2.5
2.5      Properties Tables    /    2.36
2.6      References    /    2.77
Chapter 3.  Polymeric Optics  John D. Lytle  3.1
3.1      Glossary    /    3.1
3.2      Introduction    /    3.1
3.3      Forms    /    3.2
3.4      Physical Properties    /    3.2
3.5      Optical Properties    /    3.5
3.6      Optical Design    /    3.7
3.7      Processing    /    3.11
3.8      Coatings    /    3.17
3.9      References    /    3.18
Chapter 4.  Properties of Metals  Roger A. Paquin  4.1
4.1      Glossary    /    4.1
4.2      Introduction    /    4.2
4.3      Summary Data    /    4.11
4.4      References    /    4.70
Chapter 5.   Optical Properties of Semiconductors
                     David G. Seiler, Stefan Zollner, Alain C. Diebold,
                       and Paul M. Amirtharaj  5.1
5.1      Glossary    /    5.1
5.2      Introduction    /    5.3
5.3      Optical Properties    /    5.8
5.4      Measurement Techniques    /    5.56
5.5      Acknowledgments    /    5.83
5.6      Summary and Conclusions    /    5.83
5.7      References    /    5.91
Chapter 6.  Characterization and Use of Black Surfaces for Optical
                   Systems  Stephen M. Pompea and Robert P. Breault         6.1
6.1      Introduction    /    6.1
6.2      Selection Process for Black Baffl e Surfaces in Optical Systems    /    6.10
6.3      The Creation of Black Surfaces for Specifi c Applications    /    6.13
6.4      Environmental Degradationof Black Surfaces    /    6.16
6.5      Optical Characterization of Black Surfaces    /    6.18
6.6      Surfaces for Ultraviolet and Far-Infrared Applications    /    6.21
6.7      Survey of Surfaces with Optical Data    /    6.34
6.8      Paints    /    6.35
6.9      Conclusions    /    6.59
6.10    Acknowledgments    /    6.59
6.11    References    /    6.60
6.12    Further Readings     /    6.67
Chapter 7.  Optical Properties of Films and Coatings
                   Jerzy A . Dobrowolski  7.1
7.1      Introduction    /    7.1
7.2      Theory and Design of Optical Thin-Film Coatings    /    7.5
7.3      Thin-Film Manufacturing Considerations    /    7.10
7.4      Measurements on Optical Coatings    /    7.12
7.5      Antirefl ection Coatings    /    7.15
7.6      Two-Material Periodic Multilayers Theory    /    7.32
7.7      Multilayer Refl ectors—Experimental Results    /    7.39
7.8      Cutoff, Heat-Control, and Solar-Cell Cover Filters    /    7.53
7.9      Beam Splitters and Neutral Filters    /    7.61
7.10    Interference Polarizers and Polarizing Beam Splitters    /    7.69
7.11    Bandpass Filters    /    7.73
7.12    High Performance Optical Multilayer Coatings    /    7.96
7.13    Multilayers for Two or Three Spectral Regions    /    7.98
7.14    Phase Coatings    /    7.101
7.15    Interference Filters with Low Refl ection    /    7.104
7.16    Refl ection Filters and Coatings    /    7.106
7.17    Special Purpose Coatings    /    7.113
7.18    References    /    7.114
Chapter 8.  Fundamental Optical Properties of Solids  Alan Miller      8.1
8.1      Glossary    /    8.1
8.2      Introduction    /    8.3
8.3      Propagation of Light in Solids    /    8.4
8.4      Dispersion Relations    /    8.14
8.5      Lattice Interactions    /    8.16
8.6      Free Electron Properties    /    8.21
8.7      Band Structures and Interband Transitions    /    8.24
8.8      References    /    8.32
Chapter 9.  Photonic Bandgap Materials  Pierre R. Villeneuve          9.1
9.1      Glossary    /    9.1
9.2      Introduction    /    9.2
9.3      Maxwell’s Equations    /    9.2
9.4      Three-Dimensional Photonic Crystals    /    9.4
9.5      Microcavities in Three-Dimensional Photonic Crystals    /    9.6
9.6      Microcavities in Photonic Crystals with Two-Dimensional Periodicity    /    9.8
9.7      Waveguides    /    9.12
9.8      Conclusion    /    9.17
9.9      References    /    9.18
Part 2.  Nonlinear Optics
Chapter 10.  Nonlinear Optics  Chung L. Tang  10.3
10.1    Glossary    /    10.3
10.2    Introduction    /    10.4
10.3    Basic Concepts    /    10.5
10.4    Material Considerations    /    10.19
10.5    Appendix    /    10.21
10.6    References    /    10.23
Chapter 11.  Coherent Optical Transients  Paul R. Berman
                        and Duncan G. Steel  11.1
11.1    Glossary    /    11.1
11.2    Introduction    /    11.2
11.3    Optical Bloch Equations    /    11.3
11.4    Maxwell-Bloch Equations    /    11.6
11.5    Free Polarization Decay    /    11.7
11.6    Photon Echo    /    11.11
11.7    Stimulated Photon Echo    /    11.15
11.8    Phase Conjugate Geometry and Optical Ramsey Fringes    /    11.19
11.9    Two-Photon Transitions and Atom Interferometry    /    11.22
11.10  Chirped Pulse Excitation    /    11.25
11.11  Experimental Considerations    /    11.26
11.12  Conclusion    /    11.28
11.13  References    /    11.28
Chapter 12.  Photorefractive Materials and Devices
                     Mark Cronin-Golomb and Marvin Klein  12.1
12.1    Introduction    /    12.1
12.2    Materials    /    12.10
12.3    Devices    /    12.28
12.4    References    /    12.38
12.5    Further Reading    /    12.45
Chapter 13.  Optical Limiting  David J. Hagan  13.1
13.1    Introduction    /    13.1
13.2    Basic Principles of Passive Optical Limiting    /    13.4
13.3    Examples of Passive Optical Limiting in Specifi c Materials    /    13.9
13.4    References    /    13.13
Chapter 14.  Electromagnetically Induced Transparency
                     Jonathan P. Marangos and Thomas Halfmann  14.1
14.1    Glossary    /    14.1
14.2    Introduction    /    14.2
14.3    Coherence in Two- and Three-Level Atomic Systems    /    14.4
14.4    The Basic Physical Concept of Electromagnetically Induced Transparency    /    14.5
14.5    Manipulation of Optical Properties by Electromagnetically Induced Transparency    /    14.10
14.6    Electromagnetically Induced Transparency, Driven by Pulsed Lasers    /    14.15
14.7    Steady State Electromagnetically Induced Transparency, Driven by CW Lasers    /    14.16
14.8    Gain without Inversion and Lasing without Inversion    /    14.18
14.9    Manipulation of the Index of Refraction in Dressed Atoms    /    14.19
14.10  Pulse Propagation Effects    /    14.20
14.11  Ultraslow Light Pulses    /    14.22
14.12  Nonlinear Optical Frequency Conversion    /    14.24
14.13  Nonlinear Optics at Maximal Atomic Coherence    /    14.28
14.14  Nonlinear Optics at the Few Photon Level    /    14.32
14.15  Electromagnetically Induced Transparency in Solids    /    14.33
14.16  Conclusion    /    14.36
14.17  Further Reading    /    14.36
14.18  References    /    14.37
Chapter 15.  Stimulated Raman and Brillouin Scattering
                     John Reintjes and Mark Bashkansky  15.1
15.1     Introduction    /    15.1
15.2    Raman Scattering    /    15.1
15.3    Stimulated Brillouin Scattering    /    15.43
15.4    References    /    15.54
15.5    Additional References    /    15.60
Chapter 16.  Third-Order Optical Nonlinearities
                     Mansoor Sheik-Bahae and Michael P. Hasselbeck  16.1
16.1    Introduction    /    16.1
16.2    Quantum Mechanical Picture    /    16.4
16.3    Nonlinear Absorption and Nonlinear Refraction    /    16.7
16.4    Kramers-Kronig Dispersion Relations    /    16.9
16.5    Optical Kerr Effect    /    16.11
16.6    Third-Harmonic Generation    /    16.14
16.7    Stimulated Scattering    /    16.14
16.8    Two-Photon Absorption    /    16.19
16.9    Effective Third-Order Nonlinearities; Cascaded b1:b1 Processes    /    16.20
16.10  Effective Third-Order Nonlinearities; Cascaded b(2):b(2) Processes    /    16.22
16.11  Propagation Effects    /    16.24
16.12  Common Experimental Techniques and Applications    /    16.26
16.13  References     /    16.31
Chapter 17.  Continuous-Wave Optical Parametric Oscillators
                     Majid Ebrahim-Zadeh  17.1
17.1    Introduction     /    17.1
17.2    Continuous-Wave Optical Parametric Oscillators     /    17.2
17.3    Applications     /    17.21
17.4    Summary    /    17.29
17.5    References    /    17.31
Chapter 18.  Nonlinear Optical Processes for Ultrashort
                     Pulse Generation  Uwe Siegner and Ursula Keller        18.1
18.1    Glossary    /    18.1
18.2    Abbreviations    /    18.3
18.3    Introduction    /    18.3
18.4    Saturable Absorbers: Macroscopic Description    /    18.5
18.5    Kerr Effect    /    18.11
18.6    Semiconductor Ultrafast Nonlinearities: Microscopic Processes    /    18.15
18.7    References    /    18.23
Chapter 19.  Laser-Induced Damage to Optical Materials
                     Marion J. Soileau  19.1
19.1    Introduction    /    19.1
19.2    Practical Estimates    /    19.2
19.3    Surface Damage    /    19.2
19.4    Package-Induced Damage    /    19.4
19.5    Nonlinear Optical Effects    /    19.5
19.6    Avoidance of Damage    /    19.5
19.7    Fundamental Mechanisms    /    19.6
19.8    Progress in Measurements of Critical NLO Parameters    /    19.9
19.9    References    /    19.11
Part 3.  Quantum and Molecular Optics
Chapter 20.  Laser Cooling and Trapping of Atoms
                     Harold J. Metcalf and Peter van der Straten  20.3
20.1    Introduction    /    20.3
20.2    General Properties Concerning Laser Cooling    /    20.4
20.3    Theoretical Description    /    20.6
20.4    Slowing Atomic Beams    /    20.11
20.5    Optical Molasses    /    20.13
20.6    Cooling Below the Doppler Limit    /    20.17
20.7    Trapping of Neutral Atoms    /    20.21
20.8    Applications    /    20.26
20.9    References    /    20.39
Chapter 21.  Strong Field Physics  Todd Ditmire  21.1
21.1    Glossary     /    21.1
21.2    Introduction and History    /    21.2
21.3    Laser Technology Used in Strong Field Physics    /    21.4
21.4    Strong Field Interactions with Single Electrons    /    21.5
21.5    Strong Field Interactions with Atoms    /    21.10
21.6    Strong Field Interactions with Molecules    /    21.22
21.7    Strong Field Nonlinear Optics in Gases    /    21.27
21.8    Strong Field Interactions with Clusters    /    21.31
21.9    Strong Field Physics in Underdense Plasmas    /    21.36
21.10  Strong Field Physics at Surfaces of Overdense Plasmas    /    21.46
21.11  Applications of Strong Field Interactions with Plasmas    /    21.52
21.12  References    /    21.55
Chapter 22.  Slow Light Propagation in Atomic
                     and Photonic Media  Jacob B. Khurgin  22.1
22.1    Glossary    /    22.1
22.2    Introduction     /    22.2
22.3    Atomic Resonance     /    22.2
22.4     Bandwidth Limitations in Atomic Schemes    /    22.9
22.5    Photonic Resonance    /    22.9
22.6    Slow Light in Optical Fibers    /    22.13
22.7    Conclusion     /    22.15
22.8    References     /    22.16
Chapter 23.  Quantum Entanglement in Optical Interferometry
                       Hwang Lee, Christoph F. Wildfeuer, Sean D. Huver,
                        and Jonathan P. Dowling  23.1
23.1    Introduction    /    23.1
23.2    Shot-Noise Limit    /    23.4
23.3    Heisenberg Limit    /    23.6
23.4    “Digital” Approaches    /    23.7
23.5    Noon    State    /   23.9
23.6    Quantum Imaging    /    23.13
23.7    Toward Quantum Remote Sensing    /    23.14
23.8    References    /    23.15
Index         I.1

VOLUME IV.  OPTICAL PROPERTIES OF MATERIALS, NONLINEAR
OPTICS, QUANTUM OPTICS
PART 1. PROPERTIES
Chapter 1.      Optical Properties of Water    Curtis D. Mobley
Chapter 2.       Properties of Crystals and Glasses    William J. Tropf, Michael E. Thomas, and
Eric W. Rogala
Chapter 3.      Polymeric Optics    John D. Lytle
Chapter 4.      Properties of Metals    Roger A. Paquin
Chapter 5.       Optical Properties of Semiconductors    David G. Seiler, Stefan Zollner, Alain C. Diebold, and Paul
M. Amirtharaj
Chapter 6.       Characterization and Use of Black Surfaces for Optical Systems    Stephen M. Pompea
and Robert P. Breault
Chapter 7.      Optical Properties of Films and Coatings    Jerzy A. Dobrowolski
Chapter 8.      Fundamental Optical Properties of Solids    Alan Miller
Chapter 9.      Photonic Bandgap Materials    Pierre R. Villeneuve
PART 2. NONLINEAR OPTICS
Chapter 10.    Nonlinear Optics    Chung L. Tang
Chapter 11.    Coherent Optical Transients    Paul R. Berman and Duncan G. Steel
Chapter 12.     Photorefractive Materials and Devices    Mark Cronin-Golomb and Marvin Klein
Chapter 13.    Optical Limiting    David J. Hagan
Chapter 14.     Electromagnetically Induced Transparency    Jonathan P. Marangos and Thomas Halfmann
Chapter 15.    Stimulated Raman and Brillouin Scattering    John Reintjes and Mark Bashkansky
Chapter 16.    Third-Order Optical Nonlinearities    Mansoor Sheik-Bahae and Michael P. Hasselbeck
Chapter 17.    Continuous-Wave Optical Parametric Oscillators    Majid Ebrahim-Zadeh
Chapter 18.    Nonlinear Optical Processes for Ultrashort Pulse Generation    Uwe Siegner and Ursula Keller
Chapter 19.    Laser-Induced Damage to Optical Materials    Marion J. Soileau
PART 3. QUANTUM AND MOLECULAR OPTICS
Chapter 20.    Laser Cooling and Trapping of Atoms    Harold J. Metcalf and Peter van der Straten
Chapter 21.    Strong Field Physics    Todd Ditmire
Chapter 22.    Slow Light Propagation in Atomic and Photonic Media    Jacob B. Khurgin
Chapter 23.     Quantum Entanglement in Optical Interferometry    Hwang Lee, Christoph F. Wildfeuer,
Sean D. Huver, and Jonathan P. Dowling

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