【光学手册·第三版】卷五:Handbook.of.Optics:HANDBOOK OF OPTICS. THIRD EDITION. Volume V. Atmospheric Optics, Modulators, Fiber Optics, X-Ray and Neutron Optic
CONTENTS
Contributors xix
Brief Contents of All Volumes xxiii
Editors’ Preface xxix
Preface to Volume V xxxi
Glossary and Fundamental Constants xxxiii
Part 1. Measurements
Chapter 1. Scatterometers John C. Stover 1.3
1.1 Glossary / 1.3
1.2 Introduction / 1.3
1.3 Defi nitions and Specifi cations / 1.5
1.4 Instrument Confi gurations and Component Descriptions / 1.7
1.5 Instrumentation Issues / 1.11
1.6 Measurement Issues / 1.13
1.7 Incident Power Measurement, System Calibration, and Error Analysis / 1.14
1.8 Summary / 1.16
1.9 References / 1.16
Chapter 2. Spectroscopic Measurements Brian Henderson 2.1
2.1 Glossary / 2.1
2.2 Introductory Comments / 2.2
2.3 Optical Absorption Measurements of Energy Levels / 2.2
2.4 The Homogeneous Lineshape of Spectra / 2.13
2.5 Absorption, Photoluminescence, and Radiative Decay Measurements / 2.19
2.6 References / 2.24
Part 2. Atmospheric Optics
Chapter 3. Atmospheric Optics Dennis K. Killinger, James H.
Churnside, and Laurence S. Rothman 3.3
3.1 Glossary / 3.3
3.2 Introduction / 3.4
3.3 Physical and Chemical Composition of the Standard Atmosphere / 3.6
3.4 Fundamental Theory of Interaction of Light with the Atmosphere / 3.11
3.5 Prediction of Atmospheric Optical Transmission: Computer Programs and Databases / 3.22
3.6 Atmospheric Optical Turbulence / 3.26
3.7 Examples of Atmospheric Optical Remote Sensing / 3.36
3.8 Meteorological Optics / 3.40
3.9 Atmospheric Optics and Global Climate Change / 3.43
3.10 Acknowledgments / 3.45
3.11 References / 3.45
Chapter 4. Imaging through Atmospheric Turbulence
Virendra N. Mahajan and Guang-ming Dai 4.1
Abstract / 4.1
4.1 Glossary / 4.1
4.2 Introduction / 4.2
4.3 Long-Exposure Image / 4.3
4.4 Kolmogorov Turbulence and Atmospheric Coherence Length / 4.7
4.5 Application to Systems with Annular Pupils / 4.10
4.6 Modal Expansion of Aberration Function / 4.17
4.7 Covariance and Variance of Expansion Coeffi cients / 4.20
4.8 Angle of Arrival Fluctuations / 4.23
4.9 Aberration Variance and Approximate Strehl Ratio / 4.27
4.10 Modal Correction of Atmospheric Turbulence / 4.28
4.11 Short-Exposure Image / 4.31
4.12 Adaptive Optics / 4.35
4.13 Summary / 4.36
4.14 Acknowledgments / 4.37
4.15 References / 4.37
Chapter 5. Adaptive Optics Robert Q. Fugate 5.1
5.1 Glossary / 5.1
5.2 Introduction / 5.2
5.3 The Adaptive Optics Concept / 5.2
5.4 The Nature of Turbulence and Adaptive Optics Requirements / 5.5
5.5 AO Hardware and Software Implementation / 5.21
5.6 How to Design an Adaptive Optical System / 5.38
5.7 Acknowledgments / 5.46
5.8 References / 5.47
PART 3. Modulators
Chapter 6. Acousto-Optic Devices I-Cheng Chang 6.1
6.1 Glossary / 6.3
6.2 Introduction / 6.4
6.3 Theory of Acousto-Optic Interaction / 6.5
6.4 Acousto-Optic Materials / 6.16
6.5 Acousto-Optic Defl ector / 6.22
6.6 Acousto-Optic Modulator / 6.31
6.7 Acousto-Optic Tunable Filter / 6.35
6.8 References / 6.45
Chapter 7. Electro-Optic Modulators Georgeanne M. Purvinis and
Theresa A. Maldonado 7.1
7.1 Glossary / 7.1
7.2 Introduction / 7.3
7.3 Crystal Optics and the Index Ellipsoid / 7.3
7.4 The Electro-Optic Effect / 7.6
7.5 Modulator Devices / 7.16
7.6 Applications / 7.36
7.7 Appendix: Euler Angles / 7.39
7.8 References / 7.40
Chapter 8. Liquid Crystals Sebastian Gauza and Shin-Tson Wu 8.1
Abstract / 8.1
8.1 Glossary / 8.1
8.2 Introduction to Liquid Crystals / 8.2
8.3 Types of Liquid Crystals / 8.4
8.4 Liquid Crystals Phases / 8.8
8.5 Physical Properties / 8.13
8.6 Liquid Crystal Cells / 8.25
8.7 Liquid Crystals Displays / 8.29
8.8 Polymer/Liquid Crystal Composites / 8.36
8.9 Summary / 8.37
8.10 References / 8.38
8.11 Bibliography / 8.39
Part 4. Fiber Optics
Chapter 9. Optical Fiber Communication Technology and
System Overview Ira Jacobs 9.3
9.1 Introduction / 9.3
9.2 Basic Technology / 9.4
9.3 Receiver Sensitivity / 9.8
9.4 Bit Rate and Distance Limits / 9.12
9.5 Optical Amplifi ers / 9.13
9.6 Fiber-Optic Networks / 9.14
9.7 Analog Transmission on Fiber / 9.15
9.8 Technology and Applications Directions / 9.17
9.9 References / 9.17
Chapter 10. Nonlinear Effects in Optical Fibers John A. Buck 10.1
10.1 Key Issues in Nonlinear Optics in Fibers / 10.1
10.2 Self- and Cross-Phase Modulation / 10.3
10.3 Stimulated Raman Scattering / 10.4
10.4 Stimulated Brillouin Scattering / 10.7
10.5 Four-Wave Mixing / 10.9
10.6 Conclusion / 10.11
10.7 References / 10.12
Chapter 11. Photonic Crystal Fibers Philip St. J. Russell and
Greg J. Pearce 11.1
11.1 Glossary / 11.1
11.2 Introduction / 11.2
11.3 Brief History / 11.2
11.4 Fabrication Techniques / 11.4
11.5 Modeling and Analysis / 11.6
11.6 Characteristics of Photonic Crystal Cladding / 11.7
11.7 Linear Characteristics of Guidance / 11.11
11.8 Nonlinear Characteristics of Guidance / 11.22
11.9 Intrafi ber Devices, Cutting, and Joining / 11.26
11.10 Conclusions / 11.28
11.11 Appendix / 11.28
11.12 References / 11.28
Chapter 12. Infrared Fibers James A. Harrington 12.1
12.1 Introduction / 12.1
12.2 Nonoxide and Heavy-Metal Oxide Glass IR Fibers / 12.3
12.3 Crystalline Fibers / 12.7
12.4 Hollow Waveguides / 12.10
12.5 Summary and Conclusions / 12.13
12.6 References / 12.13
Chapter 13. Sources, Modulators, and Detectors for Fiber Optic
Communication Systems Elsa Garmire 13.1
13.1 Introduction / 13.1
13.2 Double Heterostructure Laser Diodes / 13.3
13.3 Operating Characteristics of Laser Diodes / 13.8
13.4 Transient Response of Laser Diodes / 13.13
13.5 Noise Characteristics of Laser Diodes / 13.18
13.6 Quantum Well and Strained Lasers / 13.24
13.7 Distributed Feedback and Distributed Bragg Refl ector Lasers / 13.28
13.8 Tunable Lasers / 13.32
13.9 Light-Emitting Diodes / 13.36
13.10 Vertical Cavity Surface-Emitting Lasers / 13.42
13.11 Lithium Niobate Modulators / 13.48
13.12 Electroabsorption Modulators / 13.55
13.13 Electro-Optic and Electrorefractive Modulators / 13.61
13.14 PIN Diodes / 13.63
13.15 Avalanche Photodiodes, MSM Detectors, and Schottky Diodes / 13.71
13.16 References / 13.74
Chapter 14. Optical Fiber Amplifi ers John A. Buck 14.1
14.1 Introduction / 14.1
14.2 Rare-Earth-Doped Amplifi er Confi guration and Operation / 14.2
14.3 EDFA Physical Structure and Light Interactions / 14.4
14.4 Other Rare-Earth Systems / 14.7
14.5 Raman Fiber Amplifi ers / 14.8
14.6 Parametric Amplifi ers / 14.10
14.7 References / 14.11
Chapter 15. Fiber Optic Communication Links (Telecom, Datacom,
and Analog) Casimer DeCusatis and Guifang Li 15.1
15.1 Figures of Merit / 15.2
15.2 Link Budget Analysis: Installation Loss / 15.6
15.3 Link Budget Analysis: Optical Power Penalties / 15.8
15.4 References / 15.18
Chapter 16. Fiber-Based Couplers Daniel Nolan 16.1
16.1 Introduction / 16.1
16.2 Achromaticity / 16.3
16.3 Wavelength Division Multiplexing / 16.4
16.4 1 × N Power Splitters / 16.4
16.5 Switches and Attenuators / 16.4
16.6 Mach-Zehnder Devices / 16.4
16.7 Polarization Devices / 16.5
16.8 Summary / 16.6
16.9 References / 16.6
Chapter 17. Fiber Bragg Gratings Kenneth O. Hill 17.1
17.1 Glossary / 17.1
17.2 Introduction / 17.1
17.3 Photosensitivity / 17.2
17.4 Properties of Bragg Gratings / 17.3
17.5 Fabrication of Fiber Gratings / 17.4
17.6 The Application of Fiber Gratings / 17.8
17.7 References / 17.9
Chapter 18. Micro-Optics-Based Components for Networking
Joseph C. Palais 18.1
18.1 Introduction / 18.1
18.2 Generalized Components / 18.1
18.3 Network Functions / 18.2
18.4 Subcomponents / 18.5
18.5 Components / 18.9
18.6 References / 18.12
Chapter 19. Semiconductor Optical Amplifi ers Jay M. Wiesenfeld
and Leo H. Spiekman 19.1
19.1 Introduction / 19.1
19.2 Device Basics / 19.2
19.3 Fabrication / 19.15
19.4 Device Characterization / 19.17
19.5 Applications / 19.22
19.6 Amplifi cation of Signals / 19.22
19.7 Switching and Modulation / 19.28
19.8 Nonlinear Applications / 19.29
19.9 Final Remarks / 19.36
19.10 References / 19.36
Chapter 20. Optical Time-Division Multiplexed Communication
Networks Peter J. Delfyett 20.1
20.1 Glossary / 20.1
20.2 Introduction / 20.3
20.3 Multiplexing and Demultiplexing / 20.3
20.4 Introduction to Device Technology / 20.12
20.5 Summary and Future Outlook / 20.24
20.6 Bibliography / 20.25
Chapter 21. WDM Fiber-Optic Communication Networks
Alan E. Willner, Changyuan Yu, Zhongqi Pan,
and Yong Xie 21.1
21.1 Introduction / 21.1
21.2 Basic Architecture of WDM Networks / 21.4
21.3 Fiber System Impairments / 21.13
21.4 Optical Modulation Formats for WDM Systems / 21.27
21.5 Optical Amplifi ers in WDM Networks / 21.37
21.6 Summary / 21.44
21.7 Acknowledgments / 21.44
21.8 References / 21.44
Chapter 22. Solitons in Optical Fiber Communication Systems
Pavel V. Mamyshev 22.1
22.1 Introduction / 22.1
22.2 Nature of the Classical Soliton / 22.2
22.3 Properties of Solitons / 22.4
22.4 Classical Soliton Transmission Systems / 22.5
22.5 Frequency-Guiding Filters / 22.7
22.6 Sliding Frequency-Guiding Filters / 22.8
22.7 Wavelength Division Multiplexing / 22.9
22.8 Dispersion-Managed Solitons / 22.12
22.9 Wavelength-Division Multiplexed Dispersionmanaged Soliton Transmission / 22.15
22.10 Conclusion / 22.17
22.11 References / 22.17
Chapter 23. Fiber-Optic Communication Standards
Casimer DeCusatis 23.1
23.1 Introduction / 23.1
23.2 ESCON / 23.1
23.3 FDDI / 23.2
23.4 Fibre Channel Standard / 23.4
23.5 ATM/SONET / 23.6
23.6 Ethernet / 23.7
23.7 Infi niband / 23.8
23.8 References / 23.8
Chapter 24. Optical Fiber Sensors Richard O. Claus,
Ignacio Matias, and Francisco Arregui 24.1
24.1 Introduction / 24.1
24.2 Extrinsic Fabry-Perot Interferometric Sensors / 24.2
24.3 Intrinsic Fabry-Perot Interferometric Sensors / 24.4
24.4 Fiber Bragg Grating Sensors / 24.5
24.5 Long-Period Grating Sensors / 24.8
24.6 Comparison of Sensing Schemes / 24.13
24.7 Conclusion / 24.13
24.8 References / 24.13
24.9 Further Reading / 24.14
Chapter 25. High-Power Fiber Lasers and Amplifi ers
Timothy S. McComb, Martin C. Richardson,
and Michael Bass 25.1
25.1 Glossary / 25.1
25.2 Introduction / 25.3
25.3 Fiber Laser Limitations / 25.6
25.4 Fiber Laser Fundamentals / 25.7
25.5 Fiber Laser Architectures / 25.9
25.6 LMA Fiber Designs / 25.18
25.7 Active Fiber Dopants / 25.22
25.8 Fiber Fabrication and Materials / 25.26
25.9 Spectral and Temporal Modalities / 25.29
25.10 Conclusions / 25.33
25.11 References / 25.33
PART 5. X-Ray and Neutron Optics
SUBPART 5.1. INTRODUCTION AND APPLICATIONS
Chapter 26. An Introduction to X-Ray and Neutron Optics
Carolyn MacDonald 26.5
26.1 History / 26.5
26.2 X-Ray Interaction with Matter / 26.6
26.3 Optics Choices / 26.7
26.4 Focusing and Collimation / 26.9
26.5 References / 26.11
Chapter 27. Coherent X-Ray Optics and Microscopy Qun Shen 27.1
27.1 Glossary / 27.1
27.2 Introduction / 27.2
27.3 Fresnel Wave Propagation / 27.2
27.4 Unifi ed Approach for Near- and Far-Field Diffraction / 27.2
27.5 Coherent Diffraction Microscopy / 27.4
27.6 Coherence Preservation in X-Ray Optics / 27.5
27.7 References / 27.5
Chapter 28. Requirements for X-Ray Diffraction Scott T. Misture 28.1
28.1 Introduction / 28.1
28.2 Slits / 28.1
28.3 Crystal Optics / 28.3
28.4 Multilayer Optics / 28.5
28.5 Capillary and Polycapillary Optics / 28.5
28.6 Diffraction and Fluorescence Systems / 28.5
28.7 X-Ray Sources and Microsources / 28.7
28.8 References / 28.7
Chapter 29. Requirements for X-Ray Fluorescence
Walter Gibson and George Havrilla 29.1
29.1 Introduction / 29.1
29.2 Wavelength-Dispersive X-Ray Fluorescence (WDXRF) / 29.2
29.3 Energy-Dispersive X-Ray Fluorescence (EDXRF) / 29.3
29.4 References / 29.12
Chapter 30. Requirements for X-Ray Spectroscopy
Dirk Lützenkirchen-Hecht and Ronald Frahm 30.1
30.1 References / 30.5
Chapter 31. Requirements for Medical Imaging and
X-Ray Inspection Douglas Pfeiffer 31.1
31.1 Introduction to Radiography and Tomography / 31.1
31.2 X-Ray Attenuation and Image Formation / 31.1
31.3 X-Ray Detectors and Image Receptors / 31.4
31.4 Tomography / 31.5
31.5 Computed Tomography / 31.5
31.6 Digital Tomosynthesis / 31.7
31.7 Digital Displays / 31.8
31.8 Conclusion / 31.9
31.9 References / 31.10
Chapter 32. Requirements for Nuclear Medicine Lars R. Furenlid 32.1
32.1 Introduction / 32.1
32.2 Projection Image Acquisition / 32.2
32.3 Information Content in SPECT / 32.3
32.4 Requirements for Optics For SPECT / 32.4
32.5 References / 32.4
Chapter 33. Requirements for X-Ray Astronomy
Scott O. Rohrbach 33.1
33.1 Introduction / 33.1
33.2 Trade-Offs / 33.2
33.3 Summary / 33.4
Chapter 34. Extreme Ultraviolet Lithography Franco Cerrina
and Fan Jiang 34.1
34.1 Introduction / 34.1
34.2 Technology / 34.2
34.3 Outlook / 34.5
34.4 Acknowledgments / 34.6
34.5 References / 34.7
Chapter 35. Ray Tracing of X-Ray Optical Systems
Franco Cerrina and Manuel Sanchez del Rio 35.1
35.1 Introduction / 35.1
35.2 The Conceptual Basis of SHADOW / 35.2
35.3 Interfaces and Extensions of SHADOW / 35.3
35.4 Examples / 35.4
35.5 Conclusions and Future / 35.5
35.6 References / 35.6
Chapter 36. X-Ray Properties of Materials Eric M. Gullikson 36.1
36.1 X-Ray and Neutron Optics / 36.2
36.2 Electron Binding Energies, Principal K- and L-Shell Emission Lines,
and Auger Electron Energies / 36.3
36.3 References / 36.10
SUBPART 5.2. REFRACTIVE AND INTERFERENCE OPTICS
Chapter 37. Refractive X-Ray Lenses Bruno Lengeler and
Christian G. Schroer 37.3
37.1 Introduction / 37.3
37.2 Refractive X-Ray Lenses with Rotationally Parabolic Profi le / 37.4
37.3 Imaging with Parabolic Refractive X-Ray Lenses / 37.6
37.4 Microfocusing with Parabolic Refractive X-Ray Lenses / 37.7
37.5 Prefocusing and Collimation with Parabolic Refractive X-Ray Lenses / 37.8
37.6 Nanofocusing Refractive X-Ray Lenses / 37.8
37.7 Conclusion / 37.11
37.8 References / 37.11
Chapter 38. Gratings and Monochromators in the VUV and Soft
X-Ray Spectral Region Malcolm R. Howells 38.1
38.1 Introduction / 38.1
38.2 Diffraction Properties / 38.1
38.3 Focusing Properties / 38.3
38.4 Dispersion Properties / 38.6
38.5 Resolution Properties / 38.7
38.6 Effi ciency / 38.8
38.7 References / 38.8
Chapter 39. Crystal Monochromators and Bent Crystals
Peter Siddons 39.1
39.1 Crystal Monochromators / 39.1
39.2 Bent Crystals / 39.5
39.3 References / 39.6
Chapter 40. Zone Plates Alan Michette 40.1
40.1 Introduction / 40.1
40.2 Geometry of a Zone Plate / 40.1
40.3 Zone Plates as Thin Lenses / 40.3
40.4 Diffraction Effi ciencies of Zone Plates / 40.4
40.5 Manufacture of Zone Plates / 40.8
40.6 Bragg-Fresnel Lenses / 40.9
40.7 References / 40.10
Chapter 41. Multilayers Eberhard Spiller 41.1
41.1 Glossary / 41.1
41.2 Introduction / 41.1
41.3 Calculation of Multilayer Properties / 41.3
41.4 Fabrication Methods and Performance / 41.4
41.5 Multilayers for Diffractive Imaging / 41.9
41.6 References / 41.10
Chapter 42. Nanofocusing of Hard X-Rays with Multilayer
Laue Lenses Albert T. Macrander, Hanfei Yan,
Hyon Chol Kang, Jörg Maser, Chian Liu,
Ray Conley, and G. Brian Stephenson 42.1
Abstract / 42.1
42.1 Introduction / 42.2
42.2 MLL Concept and Volume Diffraction Calculations / 42.4
42.3 Magnetron-Sputtered MLLs / 42.5
42.4 Instrumental Beamline Arrangement and Measurements / 42.9
42.5 Takagi-Taupin Calculations / 42.12
42.6 Wedged MLLs / 42.12
42.7 MMLs with Curved Interfaces / 42.14
42.8 MLL Prospects / 42.15
42.9 Summary / 42.17
42.10 Acknowledgments / 42.17
42.11 References / 42.18
Chapter 43. Polarizing Crystal Optics Qun Shen 43.1
43.1 Introduction / 43.1
43.2 Linear Polarizers / 43.2
43.3 Linear Polarization Analyzers / 43.4
43.4 Phase Plates for Circular Polarization / 43.5
43.5 Circular Polarization Analyzers / 43.6
43.6 Acknowledgments / 43.8
43.7 References / 43.8
SUBPART 5.3. REFLECTIVE OPTICS
Chapter 44. Image Formation with Grazing
Incidence Optics James E. Harvey 44.3
44.1 Glossary / 44.3
44.2 Introduction to X-Ray Mirrors / 44.3
44.3 Optical Design and Residual Aberrations of Grazing Incidence Telescopes / 44.6
44.4 Image Analysis for Grazing Incidence X-Ray Optics / 44.12
44.5 Validation of Image Analysis for Grazing Incidence X-Ray Optics / 44.16
44.6 References / 44.18
Chapter 45. Aberrations for Grazing Incidence Optics
Timo T. Saha 45.1
45.1 Grazing Incidence Telescopes / 45.1
45.2 Surface Equations / 45.1
45.3 Transverse Ray Aberration Expansions / 45.3
45.4 Curvature of the Best Focal Surface / 45.5
45.5 Aberration Balancing / 45.5
45.6 On-Axis Aberrations / 45.6
45.7 References / 45.8
Chapter 46. X-Ray Mirror Metrology Peter Z. Takacs 46.1
46.1 Glossary / 46.1
46.2 Introduction / 46.1
46.3 Surface Finish Metrology / 46.2
46.4 Surface Figure Metrology / 46.3
46.5 Practical Profi le Analysis Considerations / 46.6
46.6 References / 46.12
Chapter 47. Astronomical X-Ray Optics Marshall K. Joy and
Brian D. Ramsey 47.1
47.1 Introduction / 47.1
47.2 Wolter X-Ray Optics / 47.2
47.3 Kirkpatrick-Baez Optics / 47.7
47.4 Hard X-Ray Optics / 47.9
47.5 Toward Higher Angular Resolution / 47.10
47.6 References / 47.11
Chapter 48. Multifoil X-Ray Optics Ladislav Pina 48.1
48.1 Introduction / 48.1
48.2 Grazing Incidence Optics / 48.1
48.3 Multifoil Lobster-Eye Optics / 48.2
48.4 Multifoil Kirkpatrick-Baez Optics / 48.3
48.5 Summary / 48.4
48.6 References / 48.4
Chapter 49. Pore Optics Marco W. Beijersbergen 49.1
49.1 Introduction / 49.1
49.2 Glass Micropore Optics / 49.1
49.3 Silicon Pore Optics / 49.6
49.4 Micromachined Silicon / 49.7
49.5 References / 49.7
Chapter 50. Adaptive X-Ray Optics Ali Khounsary 50.1
50.1 Introduction / 50.1
50.2 Adaptive Optics in X-Ray Astronomy / 50.2
50.3 Active and Adaptive Optics for Synchrotron- and Lab-Based X-Ray Sources / 50.2
50.4 Conclusions / 50.8
50.5 References / 50.8
Chapter 51. The Schwarzschild Objective Franco Cerrina 51.1
51.1 Introduction / 51.1
51.2 Applications to X-Ray Domain / 51.3
51.3 References / 51.5
Chapter 52. Single Capillaries Donald H. Bilderback and
Sterling W. Cornaby 52.1
52.1 Background / 52.1
52.2 Design Parameters / 52.1
52.3 Fabrication / 52.4
52.4 Applications of Single-Bounce Capillary Optics / 52.5
52.5 Applications of Condensing Capillary Optics / 52.6
52.6 Conclusions / 52.6
52.7 Acknowledgments / 52.6
52.8 References / 52.6
Chapter 53. Polycapillary X-Ray Optics Carolyn MacDonald and
Walter Gibson 53.1
53.1 Introduction / 53.1
53.2 Simulations and Defect Analysis / 53.3
53.3 Radiation Resistance / 53.5
53.4 Alignment and Measurement / 53.5
53.5 Collimation / 53.8
53.6 Focusing / 53.9
53.7 Applications / 53.10
53.8 Summary / 53.19
53.9 Acknowledgments / 53.19
53.10 References / 53.19
SUBPART 5.4. X-RAY SOURCES
Chapter 54. X-Ray Tube Sources Susanne M. Lee and
Carolyn MacDonald 54.3
54.1 Introduction / 54.3
54.2 Spectra / 54.4
54.3 Cathode Design and Geometry / 54.10
54.4 Effect of Anode Material, Geometry, and Source Size on Intensity and Brightness / 54.11
54.5 General Optimization / 54.15
54.6 References / 54.17
Chapter 55. Synchrotron Sources Steven L. Hulbert and
Gwyn P. Williams 55.1
55.1 Introduction / 55.1
55.2 Theory of Synchrotron Radiation Emission / 55.2
55.3 Insertion Devices (Undulators and Wigglers) / 55.9
55.4 Coherence of Synchrotron Radiation Emission in the Long Wavelength Limit / 55.17
55.5 Conclusion / 55.20
55.6 References / 55.20
Chapter 56. Laser-Generated Plasmas Alan Michette 56.1
56.1 Introduction / 56.1
56.2 Characteristic Radiation / 56.2
56.3 Bremsstrahlung / 56.8
56.4 Recombination Radiation / 56.10
56.5 References / 56.10
Chapter 57. Pinch Plasma Sources Victor Kantsyrev 57.1
57.1 Introduction / 57.1
57.2 Types of Z-Pinch Radiation Sources / 57.2
57.3 Choice of Optics for Z-Pinch Sources / 57.4
57.4 References / 57.5
Chapter 58. X-Ray Lasers Greg Tallents 58.1
58.1 Free-Electron Lasers / 58.1
58.2 High Harmonic Production / 58.2
58.3 Plasma-Based EUV Lasers / 58.2
58.4 References / 58.4
Chapter 59. Inverse Compton X-Ray Sources Frank Carroll 59.1
59.1 Introduction / 59.1
59.2 Inverse Compton Calculations / 59.2
59.3 Practical Devices / 59.2
59.4 Applications / 59.3
59.5 Industrial/Military/Crystallographic Uses / 59.4
59.6 References / 59.4
SUBPART 5.5. X-RAY DETECTORS
Chapter 60. Introduction to X-Ray Detectors Walter Gibson
and Peter Siddons 60.3
60.1 Introduction / 60.3
60.2 Detector Type / 60.3
60.3 Summary / 60.9
60.4 References / 60.10
Chapter 61. Advances in Imaging Detectors Aaron Couture 61.1
61.1 Introduction / 61.1
61.2 Flat-Panel Detectors / 61.3
61.3 CCD Detectors / 61.7
61.4 Conclusion / 61.8
61.5 References / 61.8
Chapter 62. X-Ray Spectral Detection and Imaging Eric Lifshin 62.1
62.1 References / 62.6
SUBPART 5.6. NEUTRON OPTICS AND APPLICATIONS
Chapter 63. Neutron Optics David Mildner 63.3
63.1 Neutron Physics / 63.3
63.2 Scattering Lengths and Cross Sections / 63.5
63.3 Neutron Sources / 63.12
63.4 Neutron Optical Devices / 63.15
63.5 Refraction and Refl ection / 63.19
63.6 Diffraction and Interference / 63.23
63.7 Polarization Techniques / 63.27
63.8 Neutron Detection / 63.31
63.9 References / 63.35
Chapter 64. Grazing-Incidence Neutron Optics Mikhail Gubarev
and Brian Ramsey 64.1
64.1 Introduction / 64.1
64.2 Total External Refl ection / 64.1
64.3 Diffractive Scattering and Mirror Surface Roughness Requirements / 64.2
64.4 Imaging Focusing Optics / 64.3
64.5 References / 64.7
Index I.1
这书到底有多少册啊,经典之作
VOLUME V. ATMOSPHERIC OPTICS, MODULATORS, FIBER OPTICS,
X-RAY AND NEUTRON OPTICS
PART 1. MEASUREMENTS
Chapter 1. Scatterometers John C. Stover
Chapter 2. Spectroscopic Measurements Brian Henderson
PART 2. ATMOSPHERIC OPTICS
Chapter 3. Atmospheric Optics Dennis K. Killinger, James H. Churnside, and Laurence S. Rothman
Chapter 4. Imaging through Atmospheric Turbulence Virendra N. Mahajan and Guang-ming Dai
Chapter 5. Adaptive Optics Robert Q. Fugate
PART 3. MODULATORS
Chapter 6. Acousto-Optic Devices I-Cheng Chang
Chapter 7. Electro-Optic Modulators Georgeanne M. Purvinis and Theresa A. Maldonado
Chapter 8. Liquid Crystals Sebastian Gauza and Shin-Tson Wu
PART 4. FIBER OPTICS
Chapter 9. Optical Fiber Communication Technology and System Overview Ira Jacobs
Chapter 10. Nonlinear Effects in Optical Fibers John A. Buck
Chapter 11. Photonic Crystal Fibers Philip St. J. Russell and Greg J. Pearce
Chapter 12. Infrared Fibers James A. Harrington
Chapter 13. Sources, Modulators, and Detectors for Fiber Optic Communication Systems Elsa Garmire
Chapter 14. Optical Fiber Amplifiers John A. Buck
Chapter 15. Fiber Optic Communication Links (Telecom, Datacom, and Analog) Casimer DeCusatis
and Guifang Li
Chapter 16. Fiber-Based Couplers Daniel Nolan
Chapter 17. Fiber Bragg Gratings Kenneth O. Hill
Chapter 18. Micro-Optics-Based Components for Networking Joseph C. Palais
Chapter 19. Semiconductor Optical Amplifiers Jay M. Wiesenfeld and Leo H. Spiekman
Chapter 20. Optical Time-Division Multiplexed Communication Networks Peter J. Delfyett
Chapter 21. WDM Fiber-Optic Communication Networks Alan E. Willner, Changyuan Yu, Zhongqi Pan, and
Yong Xie
Chapter 22. Solitons in Optical Fiber Communication Systems Pavel V. Mamyshev
Chapter 23. Fiber-Optic Communication Standards Casimer DeCusatis
Chapter 24. Optical Fiber Sensors Richard O. Claus, Ignacio Matias, and Francisco Arregui
Chapter 25. High-Power Fiber Lasers and Amplifiers Timothy S. McComb, Martin C. Richardson, and
Michael Bass
PART 5. X-RAY AND NEUTRON OPTICS
Subpart 5.1. Introduction and Applications
Chapter 26. An Introduction to X-Ray and Neutron Optics Carolyn MacDonald
Chapter 27. Coherent X-Ray Optics and Microscopy Qun Shen
Chapter 28. Requirements for X-Ray Diffraction Scott T. Misture
Chapter 29. Requirements for X-Ray Fluorescence George J. Havrilla
Chapter 30. Requirements for X-Ray Spectroscopy Dirk Lützenkirchen-Hecht and Ronald Frahm
Chapter 31. Requirements for Medical Imaging and X-Ray Inspection Douglas Pfeiffer
Chapter 32. Requirements for Nuclear Medicine Lars R. Furenlid
Chapter 33. Requirements for X-Ray Astronomy Scott O. Rohrbach
Chapter 34. Extreme Ultraviolet Lithography Franco Cerrina and Fan Jiang
Chapter 35. Ray Tracing of X-Ray Optical Systems Franco Cerrina and M. Sanchez del Rio
Chapter 36. X-Ray Properties of Materials Eric M. Gullikson
Subpart 5.2. Refractive and Interference Optics
Chapter 37. Refractive X-Ray Lenses Bruno Lengeler and Christian G. Schroer
Chapter 38. Gratings and Monochromators in the VUV and Soft X-Ray Spectral Region
Malcolm R. Howells
Chapter 39. Crystal Monochromators and Bent Crystals Peter Siddons
Chapter 40. Zone Plates Alan Michette
Chapter 41. Multilayers Eberhard Spiller
Chapter 42. Nanofocusing of Hard X-Rays with Multilayer Laue Lenses Albert T. Macrander, Hanfei Yan,
Hyon Chol Kang, Jörg Maser, Chian Liu, Ray Conley, and G. Brian Stephenson
Chapter 43. Polarizing Crystal Optics Qun Shen
Subpart 5.3. Reflective Optics
Chapter 44. Image Formation with Grazing Incidence Optics James Harvey
Chapter 45. Aberrations for Grazing Incidence Optics Timo T. Saha
Chapter 46. X-Ray Mirror Metrology Peter Z. Takacs
Chapter 47. Astronomical X-Ray Optics Marshall K. Joy and Brian D. Ramsey
Chapter 48. Multifoil X-Ray Optics Ladislav Pina
Chapter 49. Pore Optics Marco Beijersbergen
Chapter 50. Adaptive X-Ray Optics Ali Khounsary
Chapter 51. The Schwarzschild Objective Franco Cerrina
Chapter 52. Single Capillaries Donald H. Bilderback and Sterling W. Cornaby
Chapter 53. Polycapillary X-Ray Optics Carolyn MacDonald and Walter Gibson
Subpart 5.4. X-Ray Sources
Chapter 54. X-Ray Tube Sources Susanne M. Lee and Carolyn MacDonald
Chapter 55. Synchrotron Sources Steven L. Hulbert and Gwyn P. Williams
Chapter 56. Laser-Generated Plasmas Alan Michette
Chapter 57. Pinch Plasma Sources Victor Kantsyrev
Chapter 58. X-Ray Lasers Greg Tallents
Chapter 59. Inverse Compton X-Ray Sources Frank Carroll
Subpart 5.5. X-Ray Detectors
Chapter 60. Introduction to X-Ray Detectors Walter M. Gibson and Peter Siddons
Chapter 61. Advances in Imaging Detectors Aaron Couture
Chapter 62. X-Ray Spectral Detection and Imaging Eric Lifshin
Subpart 5.6. Neutron Optics and Applications
Chapter 63. Neutron Optics David Mildner
Chapter 64. Grazing-Incidence Neutron Optics Mikhail Gubarev and Brian Ramsey
�������ص�����
回复 3# 00d44
据我所知应该有五卷,这是第五卷了……
老外的书就是编的好啊,这个已经是百科全书了
谢谢,祝你身体健康。
感谢楼主分享
我想下全
真心感谢提供
1111111111111111111回复 5# cngdyj
感谢提供这么好的资料
谢谢
回复 5# cngdyj
感谢分享,确实是难得的好资料
回复 3# 00d44
本帖隐藏的内容需要回复才可以浏览
感谢分享,确实是难得的好资料
感谢楼主分享~~~~~
最后一卷了,5次感谢~~
感谢楼主分享
{:6_912:}
下来看看,谢谢。
我喜欢!!!!!!!!!!
{:6_944:}{:6_924:}
万分感谢。
非常非常感谢啊...
这是第五卷了……
这本书居然还有第五版。。。强大啊,无语
怎么下啊?
Wa, new book, thank you for your sharing
很不错的资料,感谢
对我真的很有帮组
经典书籍,谢谢楼主分享!
真心感谢楼主,祝你好人好运~~~
感谢楼主分享
好东西
支持一下 虽然不是学光学的
最后一卷,经典啊!
十分感谢!经典!
下下来看看
好象,不能下载.
看看~~:19bb
哪世能看完啊
经典之作,好书
谢谢楼主分享{:7_1242:}
many thanks!
好书啊,想下载!
光学手册·感谢提供这么好的资料
怎么下载啊?
哦呵,繼續下來研究!{:2_188:}
这么多啊,狂顶啊!!!
不错不错{:7_1234:}
好东西,这个书太多了啊
感谢楼主分享
怎么比第二版都了那么多啊
谢谢楼主分享!
论坛就需要像搂住这样的牛人啊
多谢
thanks for your share.
再次谢谢分享
HBC很不错相当不错相当不错
到底有多少册啊?
希望內容易懂
:16bb:16bb
这书很全啊 谢谢分享 抱走了
多谢楼主
GOOD~~
O(∩_∩)O~
感谢楼主分享
啥也不说了,楼主就是给力!
看看。。谢谢带走
不错了。。。。。。
相当不错相当不错
感谢楼主了
http://bbs.ceeacea.com/forum.php?mod=forumdisplay&fid=150
谢谢楼主,节日快乐
感谢楼主~~~~~~~~
谢谢楼主!
[光学手册卷V].Handbook.of.Optics,Third.Edition.pdf
