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2011.06.26
附:《Thin-FILM Optical Filters》目录:
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Contents
Preface to the Fourth Edition............................................................................. xiii
Symbols and Abbreviations.................................................................................xv
1. Introduction......................................................................................................1
1.1 Early History...........................................................................................1
1.2 Thin-Film Filters.....................................................................................5
References........................................................................................................ 10
2. Basic Theory...................................................................................................13
2.1 Maxwell’s Equations and Plane Electromagnetic Waves............... 13
2.1.1 The Poynting Vector............................................................... 18
2.2 The Simple Boundary.......................................................................... 21
2.2.1 Normal Incidence...................................................................23
2.2.2 Oblique Incidence...................................................................27
2.2.2.1 p-Polarized Light.....................................................28
2.2.2.2 s-Polarized Light......................................................30
2.2.3 The Optical Admittance for Oblique Incidence................. 31
2.2.4 Normal Incidence in Absorbing Media...............................33
2.2.5 Oblique Incidence in Absorbing Media...............................38
2.3 The Reflectance of a Thin Film..........................................................42
2.4 The Reflectance of an Assembly of Thin Films...............................45
2.5 Reflectance, Transmittance, and Absorptance.................................48
2.6 Units....................................................................................................... 51
2.7 Summary of Important Results......................................................... 52
2.8 Potential Transmittance......................................................................57
2.9 A Theorem on the Transmittance of a Thin-Film Assembly.........60
2.10 Coherence.............................................................................................. 61
2.11 Incoherent Reflection at Two or More Surfaces...............................66
References........................................................................................................71
3. Theoretical Techniques................................................................................73
3.1 Quarter- and Half-Wave Optical Thicknesses.................................73
3.2 Admittance Loci................................................................................... 74
3.3 Electric Field and Losses in the Admittance Diagram...................80
3.4 The Vector Method..............................................................................87
3.5 The Herpin Index.................................................................................89
3.6 Alternative Method of Calculation....................................................89
3.7 Smith’s Method of Multilayer Design...............................................92
3.8 The Smith Chart...................................................................................95
3.9 Reflection Circle Diagrams.................................................................97
References...................................................................................................... 103
4. Antireflection Coatings..............................................................................105
4.1 Antireflection Coatings on High-Index Substrates....................... 106
4.1.1 The Single-Layer Antireflection Coating........................... 106
4.1.2 Double-Layer Antireflection Coatings .............................. 112
4.1.3 Multilayer Coatings.............................................................. 121
4.2 Antireflection Coatings on Low-Index Substrates........................ 129
4.2.1 The Single-Layer Antireflection Coating .......................... 130
4.2.2 Two-Layer Antireflection Coatings ................................... 130
4.2.3 Multilayer Antireflection Coatings.................................... 140
4.3 Equivalent Layers............................................................................... 156
4.4 Antireflection Coatings for Two Zeros........................................... 168
4.5 Antireflection Coatings for the Visible and the Infrared............. 172
4.6 Inhomogeneous Layers..................................................................... 179
4.7 Further Information........................................................................... 182
References...................................................................................................... 183
5. Neutral Mirrors and Beam Splitters........................................................185
5.1 High-Reflectance Mirror Coatings.................................................. 185
5.1.1 Metallic Layers...................................................................... 185
5.1.2 Protection of Metal Films.................................................... 187
5.1.3 Overall System Performance, Enhanced Reflectance...... 193
5.1.4 Reflecting Coatings for the Ultraviolet.............................. 196
5.2 Neutral Beam Splitters...................................................................... 198
5.2.1 Beam Splitters Using Metallic Layers................................ 198
5.2.2 Beam Splitters Using Dielectric Layers............................. 201
5.3╇ Neutral-Density Filters.........................................................................205
References...................................................................................................... 207
6. Multilayer High-Reflectance Coatings...................................................209
6.1 The Fabry–Perot Interferometer....................................................... 209
6.2 Multilayer Dielectric Coatings......................................................... 215
6.2.1 All-Dielectric Multilayers with Extended
High-Reflectance Zones.......................................................225
6.2.2 Coating Uniformity Requirements....................................230
6.3 Losses...................................................................................................234
References......................................................................................................238
7. Edge Filters...................................................................................................241
7.1 Thin-Film Absorption Filters........................................................... 241
7.2 Interference Edge Filters................................................................... 242
7.2.1 The Quarter-Wave Stack...................................................... 243
7.2.2 Symmetrical Multilayers and the Herpin Index..............244
7.2.2.1 Application of the Herpin Index to the
Quarter-wave Stack.............................................. 248
7.2.2.2 Application of the Herpin Index to
Multilayers of Other Than Quarter-waves.......253
7.2.3 Performance Calculations....................................................256
7.2.3.1 Transmission at the Edge of a Stop Band...........256
7.2.3.2 Transmission in the Center of a Stop Band.......258
7.2.3.3 Transmission in the Pass Band............................ 260
7.2.3.4 Reduction of Pass-Band Ripple........................... 262
7.2.3.5 Summary of Design Procedure so Far...............265
7.2.3.6 More Advanced Procedures for Eliminating
Ripple......................................................................266
7.2.3.7 Practical Filters...................................................... 281
7.2.3.8 Extending the Rejection Zone by
Interference Methods............................................283
7.2.3.9 Extending the Transmission Zone...................... 287
7.2.3.10 Reducing the Transmission Zone....................... 295
7.2.3.11 Edge Steepness...................................................... 296
References...................................................................................................... 297
8. Band-Pass Filters..........................................................................................299
8.1 Broadband-Pass Filters......................................................................299
8.2 Narrowband Filters............................................................................302
8.2.1 The Metal–Dielectric Single–Cavity Filter........................302
8.2.2 The All-Dielectric Single-Cavity Filter.............................. 310
8.2.2.1 Case 1: Even Number (2x) of Layers................... 313
8.2.2.2 Case II: Odd Number (2x + 1) of Layers............. 315
8.2.2.3 Phase Shift: Case I................................................. 316
8.2.2.4 Phase Shift: Case II................................................ 317
8.2.3 The Solid Etalon Filter.......................................................... 325
8.2.4 The Effect of Varying the Angle of Incidence................... 329
8.2.4.1 Simple Tilts in Collimated Light......................... 329
8.2.4.2 Case I: High-Index Cavities................................. 332
8.2.4.3 Case II: Low-Index Cavities.................................333
8.2.4.4 Effect of an Incident Cone of Light.....................335
8.2.5 Sideband Blocking................................................................341
8.3 Multiple Cavity Filters.......................................................................342
8.3.1 Thelen’s Method of Analysis...............................................349
8.4 Higher Performance in Multiple-Cavity Filters............................356
8.4.1 Effect of Tilting......................................................................364
8.4.2 Losses in Multiple Cavity Filters........................................ 367
8.4.2.1 Case I: High-Index Cavities.................................368
8.4.2.2 Case II: Low-Index Cavities................................. 369
8.4.3 Further Information............................................................. 369
8.5 Phase Dispersion Filter..................................................................... 370
8.6 Multiple Cavity Metal–Dielectric Filters........................................ 377
8.6.1 The Induced-Transmission Filter........................................380
8.6.1.1 Potential Transmittance........................................ 381
8.6.1.2 Optimum Exit Admittance.................................. 382
8.6.1.3 Maximum Potential Transmittance....................384
8.6.1.4 Matching Stack......................................................384
8.6.1.5 Front Surface Equivalent Admittance................386
8.6.2 Examples of Filter Designs..................................................386
8.7 Measured Filter Performance........................................................... 396
References...................................................................................................... 399
9. Tilted Coatings.............................................................................................403
9.1 Modified Admittances and the Tilted Admittance Diagram......403
9.2 Application of the Admittance Diagram........................................ 411
9.3 Polarizers.............................................................................................425
9.3.1 The Brewster Angle Polarizing Beam Splitter..................425
9.3.2 Plate Polarizer........................................................................430
9.3.3 Cube Polarizers..................................................................... 431
9.4 Nonpolarizing Coatings.................................................................... 431
9.4.1 Edge Filters at Intermediate Angle of Incidence.............. 432
9.4.2 Reflecting Coatings at Very High Angles of
Incidence................................................................................ 437
9.4.3 Edge Filters at Very High Angles of Incidence.................441
9.5 Antireflection Coatings.....................................................................442
9.5.1 p-Polarization Only...............................................................442
9.5.2 s-Polarization Only...............................................................443
9.5.3 s- and p-Polarization Together............................................444
9.6 Retarders.............................................................................................447
9.6.1 The Ellipsometric Parameters and Relative
Retardation............................................................................447
9.6.2 Series of Coated Surfaces.....................................................448
9.6.3 Retarders................................................................................449
9.6.4 Simple Retarders................................................................... 451
9.6.5 Multilayer Retarders at One Wavelength..........................455
9.6.6 Multilayer Retarders for a Range of Wavelengths...........459
9.7 Optical Tunnel Filters........................................................................464
References...................................................................................................... 467
10. Color in Optical Coatings..........................................................................471
10.1 Color Definition.................................................................................. 471
10.2 The 1964 Supplementary Colorimetric Observer.......................... 478
10.3 Metamerism........................................................................................ 479
10.4 Other Color Spaces.............................................................................480
10.5 Hue and Chroma................................................................................ 481
10.6 Brightness and Optimal Stimuli......................................................482
10.7 Colored Fringes..................................................................................485
References......................................................................................................487
11. Production Methods and Thin-Film Materials.....................................489
11.1 The Production of Thin Films..........................................................490
11.1.1 Thermal Evaporation............................................................ 491
11.1.2 Energetic Processes............................................................... 501
11.1.3 Other Processes..................................................................... 513
11.1.4 Baking..................................................................................... 517
11.2 Measurement of the Optical Properties.......................................... 520
11.3 Measurement of the Mechanical Properties..................................540
11.4 Toxicity................................................................................................550
11.5 Summary of Some Properties of Common Materials................... 551
References...................................................................................................... 561
12. Factors Affecting Layer and Coating Properties...................................569
12.1 Microstructure and Thin-Film Behavior........................................ 569
12.2 Sensitivity to Contamination...........................................................584
References...................................................................................................... 592
13. Layer Uniformity and Thickness Monitoring.......................................595
13.1 Uniformity.......................................................................................... 595
13.1.1 Flat Plate................................................................................. 597
13.1.2 Spherical Surface................................................................... 598
13.1.3 Rotating Substrates............................................................... 598
13.1.4 Use of Masks..........................................................................603
13.2 Substrate Preparation........................................................................604
13.3 Thickness Monitoring and Control.................................................607
13.3.1 Optical Monitoring Techniques..........................................608
13.3.2 The Quartz-Crystal Monitor............................................... 618
13.3.3 Monitoring by Deposition Time......................................... 620
13.4 Tolerances............................................................................................ 621
References......................................................................................................636
14. Specification of Filters and Environmental Effects..............................641
14.1 Optical Properties..............................................................................641
14.1.1 Performance Specification...................................................641
14.1.2 Manufacturing Specification...............................................644
14.1.3 Test Specification...................................................................644
14.2 Physical Properties.............................................................................648
14.2.1 Abrasion Resistance..............................................................648
14.2.2 Adhesion................................................................................ 651
14.2.3 Environmental Resistance................................................... 652
References......................................................................................................653
15. System Considerations: Applications of Filters and Coatings...........655
15.1 Potential Energy Grasp of Interference Filters ..............................659
15.2 Narrowband Filters in Astronomy..................................................665
15.3 Atmospheric Temperature Sounding.............................................. 670
15.4 Order Sorting Filters for Grating Spectrometers........................... 679
15.5 Glare Suppression Filters and Coatings......................................... 691
15.6 Some Coatings Involving Metal Layers.......................................... 695
15.6.1 Electrode Films for Schottky-Barrier Photodiodes.......... 695
15.6.2 Spectrally Selective Coatings for Photothermal Solar
Energy Conversion............................................................... 698
15.6.3 Heat Reflecting Metal–Dielectric Coatings ...................... 703
References...................................................................................................... 705
16. Other Topics..................................................................................................707
16.1 Rugate Filters...................................................................................... 707
16.2 Ultrafast Coatings.............................................................................. 718
16.3 Automatic Methods........................................................................... 729
16.4 Gain in Optical Coatings.................................................................. 740
16.4.1 Oblique Incidence................................................................. 744
16.5 Photonic Crystals............................................................................... 748
16.5.1 What Is a Photonic Crystal?................................................750
16.5.2 Two-dimensional Photonic Crystals.................................750
16.5.3 One-dimensional Photonic Crystals................................. 751
References......................................................................................................756
17. Characteristics of Thin-Film Dielectric Materials...............................759
References...................................................................................................... 766
Bibliography.........................................................................................................771
Index......................................................................................................................773
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