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为了使薄膜论坛更好的发展,为广大薄膜会员创造更好的交流平台,本论坛管理团队经过慎重考虑,借此论坛升级之际,对论坛的版主进行全部更换,凡是以前的版主请在此留言,并且需重新考核方能继续担任版主,也请别的会员,积极报名,请在此贴说明你对哪个版块感兴趣,简单说明你如果担任论坛版主,如何进行有效管理,凡是成功聘为版主者,经过考核,达到要求者,可传送一份MACLEOD 最新版本《Thin-FILM Optical Filters》(第4版)(电子版),特别优秀者,将得到薄膜资料光盘一个,里面是薄膜论坛的最新资料!请各位广大会员踊跃报名!谢谢大家对论坛的支持! b9 A- I, J8 E9 S, I# D
( s. f+ N, P& W; d0 C' G 薄膜论坛团队
# {, y6 X' \. {6 Q 2011.06.26
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附: 《Thin-FILM Optical Filters》目录:
5 j& k# |/ W6 P9 w$ T: p本人有幸请国外的朋友购得MACLEOD 最新版本《Thin-FILM Optical Filters》(第4版)(电子版),是英文原版,本书为光学薄膜设计的最经典的图书,适合各类薄膜工作者。2 [+ \( Z1 l, b
7 D2 k0 t, Q& `/ ~
Contents D/ @; [. x* q1 [( `2 W
Preface to the Fourth Edition............................................................................. xiii; r" D. Z7 f# c' a
Symbols and Abbreviations.................................................................................xv7 X, ?: c/ _+ D' S" J& t8 |# s- w J
1. Introduction......................................................................................................1
% y+ v! |% Y S+ X5 a1.1 Early History...........................................................................................1
7 M, f" I# w- Y1 j8 b! g1.2 Thin-Film Filters.....................................................................................5
8 D# E+ ]" c, `) z0 lReferences........................................................................................................ 107 S* M8 C9 ^8 x1 `0 W
2. Basic Theory...................................................................................................13
$ y# m/ |' i( W R- Q8 W8 {2.1 Maxwell’s Equations and Plane Electromagnetic Waves............... 13
' a# u. A9 ~ Q, V2.1.1 The Poynting Vector............................................................... 188 Y0 f+ l M, h
2.2 The Simple Boundary.......................................................................... 21
, `7 L! F& [' T( ?- Y( [2.2.1 Normal Incidence...................................................................23
+ D1 e7 f1 v5 M/ z+ R2.2.2 Oblique Incidence...................................................................27
5 ]- q2 p% h8 C# d% B6 B" F3 ~2.2.2.1 p-Polarized Light.....................................................28
. j# ]4 O2 n! [. J2.2.2.2 s-Polarized Light......................................................30
# G I; Z1 `+ d2 Q! [' C- z2.2.3 The Optical Admittance for Oblique Incidence................. 31
7 s% s* ^; R; [2.2.4 Normal Incidence in Absorbing Media...............................33
, a7 C% _- z6 O$ ~& @2.2.5 Oblique Incidence in Absorbing Media...............................38( d. b4 v2 }9 R; A1 K$ e; I; Y! S' g
2.3 The Reflectance of a Thin Film..........................................................42* W. W7 Y2 h2 l- F9 F
2.4 The Reflectance of an Assembly of Thin Films...............................45
2 e& N! l' T- }% w: v2.5 Reflectance, Transmittance, and Absorptance.................................48) }$ c/ u @0 C
2.6 Units....................................................................................................... 51
: M3 [" u1 Y$ s: }/ N8 b) P2.7 Summary of Important Results......................................................... 52
- x$ `3 D- V5 T# I' s2.8 Potential Transmittance......................................................................574 v% U* ~1 _9 X' C8 Q
2.9 A Theorem on the Transmittance of a Thin-Film Assembly.........60- S5 _( r& x& _' d. [- Z. f6 ~
2.10 Coherence.............................................................................................. 61
7 c' P( l# U. E0 X7 m1 w* r2.11 Incoherent Reflection at Two or More Surfaces...............................66( a7 a* e' {! w$ V3 ]0 o
References........................................................................................................71
7 j6 g0 \- s0 F# I: h D4 Z" X3. Theoretical Techniques................................................................................734 s3 F0 Q# N& S7 f# u0 j
3.1 Quarter- and Half-Wave Optical Thicknesses.................................73
2 Z7 l$ w, K- o- |. x5 Q3.2 Admittance Loci................................................................................... 74' d& `- D0 P2 k, d# l
3.3 Electric Field and Losses in the Admittance Diagram...................80
! [ H# t0 n# _3.4 The Vector Method..............................................................................87' F; x! |$ k2 A' ~7 K$ r {: f+ e
3.5 The Herpin Index.................................................................................89% \; P6 K( l) E
3.6 Alternative Method of Calculation....................................................89! G) W9 S6 g0 }% i$ R( G
3.7 Smith’s Method of Multilayer Design...............................................92
3 s# a: `( s' A1 ~( R3.8 The Smith Chart...................................................................................95
$ V1 i& D+ T# N8 a3.9 Reflection Circle Diagrams.................................................................97
2 e+ Y6 U3 z! U i3 X% g# @References...................................................................................................... 103% L( j+ a d' s7 k7 K: \
4. Antireflection Coatings..............................................................................105
+ M; i7 c8 a1 X: z5 f4.1 Antireflection Coatings on High-Index Substrates....................... 1060 R( X2 q, I4 w- b
4.1.1 The Single-Layer Antireflection Coating........................... 1061 D8 D! V- C. P: o, l
4.1.2 Double-Layer Antireflection Coatings .............................. 1128 }" ~! Y! W% s, {# n
4.1.3 Multilayer Coatings.............................................................. 1219 e: f7 `% _& t* K
4.2 Antireflection Coatings on Low-Index Substrates........................ 129
+ F/ J5 Y' Y6 S. g7 Z# E# x4.2.1 The Single-Layer Antireflection Coating .......................... 130
3 g: c0 [ C' e4 L" O; ?4.2.2 Two-Layer Antireflection Coatings ................................... 130
- B) w r& c% U! y- G' K4.2.3 Multilayer Antireflection Coatings.................................... 140! Z* [( j. O$ V! A+ Q
4.3 Equivalent Layers............................................................................... 156: l# m4 ^1 \! d% W
4.4 Antireflection Coatings for Two Zeros........................................... 168) N# `. \. p6 ]4 t/ [) k, p0 Q
4.5 Antireflection Coatings for the Visible and the Infrared............. 172- r" K6 i2 ^3 f7 t9 K& T% `0 D# d
4.6 Inhomogeneous Layers..................................................................... 179
1 g q/ [; a. U: E( o; B5 a4.7 Further Information........................................................................... 182
6 f" ^7 q" i: m% \, E+ y! x0 vReferences...................................................................................................... 183- G' G z5 n- V8 _
5. Neutral Mirrors and Beam Splitters........................................................185! S- o9 ]; J( B' J1 ]- }, V; H: ^
5.1 High-Reflectance Mirror Coatings.................................................. 185( ~5 D* p: o: O3 @
5.1.1 Metallic Layers...................................................................... 185
' X- j1 A$ Q6 z+ r2 b$ @$ O9 x5.1.2 Protection of Metal Films.................................................... 187
+ o; o6 l: S* L- W5.1.3 Overall System Performance, Enhanced Reflectance...... 1934 J0 `- P w0 p
5.1.4 Reflecting Coatings for the Ultraviolet.............................. 196
2 }5 N. H# p* q+ n5.2 Neutral Beam Splitters...................................................................... 198( s! L; X( ?" L0 C7 J
5.2.1 Beam Splitters Using Metallic Layers................................ 198# n& N( M; }) q8 }) q
5.2.2 Beam Splitters Using Dielectric Layers............................. 201
, ?' {. `* M' R! y) {7 }5.3╇ Neutral-Density Filters.........................................................................205( |' a( O' J) |2 n. d% ~8 F; d
References...................................................................................................... 2070 W8 J9 E6 @. e: D3 K
6. Multilayer High-Reflectance Coatings...................................................209
2 p1 `& a, b+ \7 K3 V* h6.1 The Fabry–Perot Interferometer....................................................... 209 b h$ f, \5 F% W9 P
6.2 Multilayer Dielectric Coatings......................................................... 215
- ?9 h4 J8 u# Q5 t% ^8 n8 T4 Q6.2.1 All-Dielectric Multilayers with Extended
8 \' d# }2 R9 t( U! [High-Reflectance Zones.......................................................225! x/ y" m1 B2 C; z3 D; e3 s
6.2.2 Coating Uniformity Requirements....................................230
, l$ c5 \7 x- Q8 b6.3 Losses...................................................................................................234
/ w& Y+ e" S' h0 }" _' [) c+ K! eReferences......................................................................................................238) J) N# l6 a1 A! l7 c0 g2 ?0 M6 i
7. Edge Filters...................................................................................................241& k4 M# I/ a% x3 w6 K
7.1 Thin-Film Absorption Filters........................................................... 241+ `9 f7 K$ ]0 E1 x( Q
7.2 Interference Edge Filters................................................................... 2423 F. c. ~# c! E' v# |
7.2.1 The Quarter-Wave Stack...................................................... 243 m$ H/ R# F, a3 G' S
7.2.2 Symmetrical Multilayers and the Herpin Index..............244" R3 I* s5 a F" d
7.2.2.1 Application of the Herpin Index to the; M8 R; ^/ A) t3 c5 _: Q" L" i
Quarter-wave Stack.............................................. 248
7 x6 C/ A; t3 |% P6 o: d- p7.2.2.2 Application of the Herpin Index to
/ g* q/ C7 E- ]& S# l5 qMultilayers of Other Than Quarter-waves.......253
: Z8 b8 g4 _4 u6 m7.2.3 Performance Calculations....................................................256* Q, t! U2 `% U; n2 y
7.2.3.1 Transmission at the Edge of a Stop Band...........256
) r9 \' `! G$ [- J% y+ h7.2.3.2 Transmission in the Center of a Stop Band.......258
& y/ D' l7 g* a3 ~) i# V1 ?7.2.3.3 Transmission in the Pass Band............................ 260
( K& s" Q* I4 v T$ O7.2.3.4 Reduction of Pass-Band Ripple........................... 262
5 H2 A: c/ z" S3 O" h5 r7.2.3.5 Summary of Design Procedure so Far...............265
; C/ o' i( x) T* ~$ f0 C2 y3 Z7.2.3.6 More Advanced Procedures for Eliminating
( }+ ?7 o$ m& [5 B" SRipple......................................................................266( J4 F+ j' [: Y. Z
7.2.3.7 Practical Filters...................................................... 281
- G" f3 h' q. S6 L7.2.3.8 Extending the Rejection Zone by
, E. q- R" Z7 u* C; @ O) P& tInterference Methods............................................2837 ], U* a6 X2 f0 |* A' X1 x3 K
7.2.3.9 Extending the Transmission Zone...................... 2875 `7 @: \2 x( H" c7 L
7.2.3.10 Reducing the Transmission Zone....................... 295! t5 {4 K) P5 r. C
7.2.3.11 Edge Steepness...................................................... 296" j1 y# _% b+ Q1 u- l& O
References...................................................................................................... 297: W5 \: Z' j p* b/ B( A
8. Band-Pass Filters..........................................................................................299! e1 r6 T D* P3 `. u7 Q8 U: L" X
8.1 Broadband-Pass Filters......................................................................299
/ \0 V. L( }" s8.2 Narrowband Filters............................................................................302
0 ]# |+ G& h/ J- D1 n5 J8.2.1 The Metal–Dielectric Single–Cavity Filter........................302
! i$ \9 x/ M+ X% D8.2.2 The All-Dielectric Single-Cavity Filter.............................. 310
3 [5 I& _. s3 P0 [) I8.2.2.1 Case 1: Even Number (2x) of Layers................... 313
3 d3 e# S6 S' P/ a- o8.2.2.2 Case II: Odd Number (2x + 1) of Layers............. 315( L# v, O. [: c6 r
8.2.2.3 Phase Shift: Case I................................................. 316
$ B7 T$ X0 q) Q& w4 u. y4 }8.2.2.4 Phase Shift: Case II................................................ 3179 c1 u y! g$ h. E# q1 d9 t4 V. v
8.2.3 The Solid Etalon Filter.......................................................... 325( c5 f$ W2 P* ]* n
8.2.4 The Effect of Varying the Angle of Incidence................... 329
2 A) i3 U4 J& x& s8.2.4.1 Simple Tilts in Collimated Light......................... 329
5 n, Y' g, J" U) U8.2.4.2 Case I: High-Index Cavities................................. 332
( C6 i+ D3 N' F" d* _6 k8.2.4.3 Case II: Low-Index Cavities.................................3334 H. z5 s( o a5 R S
8.2.4.4 Effect of an Incident Cone of Light.....................335
; P' ~5 l# r6 S1 A1 S0 N& g8.2.5 Sideband Blocking................................................................341' u7 [8 w2 t' k. R F
8.3 Multiple Cavity Filters.......................................................................342
8 @1 z6 N) w' A% N1 }% U$ |0 }9 \8.3.1 Thelen’s Method of Analysis...............................................349# i) R& {. s ]1 g% l) T
8.4 Higher Performance in Multiple-Cavity Filters............................356
! a. D0 I1 m& Z: w; k+ N+ ~5 e9 e8.4.1 Effect of Tilting......................................................................364
8 U* K6 S8 g u% ^5 ?9 r# _8.4.2 Losses in Multiple Cavity Filters........................................ 367
6 J; S& S8 L( ?( J5 F) f: k& m0 x8.4.2.1 Case I: High-Index Cavities.................................368- ]6 @5 }3 ]5 }4 ~
8.4.2.2 Case II: Low-Index Cavities................................. 369
# e' V& A; Z7 J5 [9 {% z8.4.3 Further Information............................................................. 369' H$ t3 F& a# l/ _
8.5 Phase Dispersion Filter..................................................................... 370
! A8 f9 `/ \6 l1 N/ U$ n8.6 Multiple Cavity Metal–Dielectric Filters........................................ 377
. f+ Z% q5 D/ ]. M2 T$ Q) z8.6.1 The Induced-Transmission Filter........................................380' a& z: E. H3 [( ^
8.6.1.1 Potential Transmittance........................................ 381; A4 J9 `; {0 D0 |
8.6.1.2 Optimum Exit Admittance.................................. 382
* b" P7 }5 w6 v2 O5 H; }8.6.1.3 Maximum Potential Transmittance....................384
$ X" }2 I# ?8 \1 c8.6.1.4 Matching Stack......................................................3842 g p2 w4 Y& ?& ?
8.6.1.5 Front Surface Equivalent Admittance................3869 b! Y- g3 f6 c
8.6.2 Examples of Filter Designs..................................................386( y+ B. u4 Z A1 `0 ^
8.7 Measured Filter Performance........................................................... 396! W1 R* k2 W7 {7 V" k
References...................................................................................................... 399
9 D+ N$ }2 a$ `; S* q9. Tilted Coatings.............................................................................................403
/ v) P! C/ h) \7 v, r/ h7 q, }9.1 Modified Admittances and the Tilted Admittance Diagram......403) g8 n" h0 r# o6 v3 E, D
9.2 Application of the Admittance Diagram........................................ 411
5 L g6 c. B& i! E) G: L5 C4 M; ]9.3 Polarizers.............................................................................................425% D; U7 Y9 L" G
9.3.1 The Brewster Angle Polarizing Beam Splitter..................425
# t6 i6 u, ]2 r3 x6 c/ R ?) x+ i9.3.2 Plate Polarizer........................................................................430
1 T. ?: q4 b; b9.3.3 Cube Polarizers..................................................................... 431/ [" I, d4 _+ x
9.4 Nonpolarizing Coatings.................................................................... 431
( t( Q7 V9 w" I/ T2 }9.4.1 Edge Filters at Intermediate Angle of Incidence.............. 432
; X9 R* K& b C9.4.2 Reflecting Coatings at Very High Angles of
6 W' U" n5 s6 ?& S: M+ jIncidence................................................................................ 437: u o9 ~. d, H% V+ s* T
9.4.3 Edge Filters at Very High Angles of Incidence.................441
. M+ j. N: n* z0 S0 R9.5 Antireflection Coatings.....................................................................442! L8 K! r5 ~3 P
9.5.1 p-Polarization Only...............................................................442 P4 Z. y9 o; r, Y2 z7 @
9.5.2 s-Polarization Only...............................................................443
2 ^. r+ [6 X" t. p! x) z% l9.5.3 s- and p-Polarization Together............................................444
' f; K/ h2 n6 @# t* J9.6 Retarders.............................................................................................4471 e$ _9 t T/ P2 S0 p! f
9.6.1 The Ellipsometric Parameters and Relative* N C6 q' W) U0 h, v, a" D
Retardation............................................................................447+ ]# M2 g& i0 M' k* S3 w9 t
9.6.2 Series of Coated Surfaces.....................................................448# {4 R0 O6 d$ ^) o
9.6.3 Retarders................................................................................4498 F5 X: c: H% z
9.6.4 Simple Retarders................................................................... 4514 B, @: e& U" s3 m; W w: a( A
9.6.5 Multilayer Retarders at One Wavelength..........................455/ ?3 r5 {/ a9 @0 I
9.6.6 Multilayer Retarders for a Range of Wavelengths...........459
* X" r7 B }4 n* s1 t& L9.7 Optical Tunnel Filters........................................................................464
c' b" H$ D! AReferences...................................................................................................... 4676 v& f2 H8 b$ i2 ^) |. E
10. Color in Optical Coatings..........................................................................4712 a, L8 t# Q6 U( l1 l) w
10.1 Color Definition.................................................................................. 4711 F' d4 d# x+ `0 t
10.2 The 1964 Supplementary Colorimetric Observer.......................... 478' e8 a6 c# e( D
10.3 Metamerism........................................................................................ 4796 f2 o3 a7 m$ o% ~! J% w
10.4 Other Color Spaces.............................................................................4803 @7 m3 N4 X. H5 T1 C8 @
10.5 Hue and Chroma................................................................................ 481
$ ?% Q* O. ^ o; C0 {10.6 Brightness and Optimal Stimuli......................................................482
7 o1 v8 @ R- R" L; f, \, r10.7 Colored Fringes..................................................................................485
) h, ?7 z- J. @1 }: AReferences......................................................................................................487
4 }+ [- B) H. T. Y! x11. Production Methods and Thin-Film Materials.....................................489
, W6 h9 p4 P5 |9 F- `3 r11.1 The Production of Thin Films..........................................................490$ R: V: g8 V& O/ l- @# H
11.1.1 Thermal Evaporation............................................................ 4914 v& Y1 ]9 J L. E2 b d; O
11.1.2 Energetic Processes............................................................... 501 D8 F, b4 D0 j. ~6 E- s8 w- t' P
11.1.3 Other Processes..................................................................... 5136 ]' r) X8 [9 H6 p
11.1.4 Baking..................................................................................... 517
5 g1 n6 D4 Y' o- A. _0 s11.2 Measurement of the Optical Properties.......................................... 5207 ]9 e' U6 i9 z1 v2 _
11.3 Measurement of the Mechanical Properties..................................540) Q. ~- U6 d# ]! K. @) F/ ~+ y. k
11.4 Toxicity................................................................................................550
" X8 U- C* x6 N* x" s4 O11.5 Summary of Some Properties of Common Materials................... 551/ c3 l. S/ p, |! k; F
References...................................................................................................... 561
+ ?* c+ s: b- M0 {9 R7 m7 j0 t: Z12. Factors Affecting Layer and Coating Properties...................................569
4 ]! L0 e. @( \9 C12.1 Microstructure and Thin-Film Behavior........................................ 569; c3 f0 `9 h9 u& ^: p
12.2 Sensitivity to Contamination...........................................................584! ^6 ~% n3 g9 q+ |% L
References...................................................................................................... 592
- G1 U/ N, @% N( y" i13. Layer Uniformity and Thickness Monitoring.......................................595
: J( |) M) g1 k- ] T$ d: K13.1 Uniformity.......................................................................................... 595. f' s' L) u: d9 N; M8 G+ N7 i
13.1.1 Flat Plate................................................................................. 597/ F6 H( h$ Q. W: g2 r
13.1.2 Spherical Surface................................................................... 598, H& G8 c6 K1 `8 ]1 ~ ~
13.1.3 Rotating Substrates............................................................... 598% l3 L6 {! M2 C' ?. Z E' l4 G
13.1.4 Use of Masks..........................................................................6034 c9 ?7 e: I8 I% K8 Z! C! U5 ^! w
13.2 Substrate Preparation........................................................................604
3 S- h5 W- z- D0 m13.3 Thickness Monitoring and Control.................................................607! J1 e) z9 }% L9 T/ h4 V: W
13.3.1 Optical Monitoring Techniques..........................................608
2 H1 r: g% i O; a13.3.2 The Quartz-Crystal Monitor............................................... 618) g1 F- g5 H- B0 {
13.3.3 Monitoring by Deposition Time......................................... 620) f& ^6 X3 G. ^9 |: y, r6 o
13.4 Tolerances............................................................................................ 621- D! Y& f* B2 j
References......................................................................................................636
8 S I. R( @5 P14. Specification of Filters and Environmental Effects..............................641
/ r! j5 J0 U1 q$ i+ t, o, n0 l+ w. a2 w14.1 Optical Properties..............................................................................641
- c3 l9 Y; \$ _# X* J! }0 N14.1.1 Performance Specification...................................................641( d8 \7 M1 J3 V8 E
14.1.2 Manufacturing Specification...............................................644
4 V5 c- e) n, X3 Q1 B7 B I: L14.1.3 Test Specification...................................................................644
6 m( z, ~& T0 W2 A14.2 Physical Properties.............................................................................648
6 M9 u1 d s7 N9 }2 O. u14.2.1 Abrasion Resistance..............................................................648
9 g# U) `+ r3 R- Z6 K0 T14.2.2 Adhesion................................................................................ 651
# Q! W/ Q9 t* |0 o( y) Z14.2.3 Environmental Resistance................................................... 652! r4 U8 c6 [ g3 r0 E* [
References......................................................................................................653
5 l# ~4 I, s: w" V G+ |15. System Considerations: Applications of Filters and Coatings...........655( N/ v* Z4 ~: S3 Z4 F" I. n
15.1 Potential Energy Grasp of Interference Filters ..............................659
. h3 o- ^) j( r+ m' `( z) N4 l0 S15.2 Narrowband Filters in Astronomy..................................................665% I. r% _( Q8 j6 ~% [8 e- g
15.3 Atmospheric Temperature Sounding.............................................. 670. P7 b$ ~8 F( M5 D/ _( {" O
15.4 Order Sorting Filters for Grating Spectrometers........................... 679/ z! X" U. x, m+ b1 }8 Z
15.5 Glare Suppression Filters and Coatings......................................... 691
0 X R, n4 a' |15.6 Some Coatings Involving Metal Layers.......................................... 695
9 ~! b1 X. }$ b; E& \7 L15.6.1 Electrode Films for Schottky-Barrier Photodiodes.......... 695
- Z: u4 A& m1 c& k15.6.2 Spectrally Selective Coatings for Photothermal Solar, S, u' v6 M/ L" v; L7 p# \6 n
Energy Conversion............................................................... 698- ?' L7 p) c4 { d g+ K
15.6.3 Heat Reflecting Metal–Dielectric Coatings ...................... 703( S" y) v$ Q) ~% E( C( v
References...................................................................................................... 705$ z+ V7 L1 r; ]& K! s
16. Other Topics..................................................................................................707
' J& p4 N* [9 p16.1 Rugate Filters...................................................................................... 707" ]. |3 C' V& f
16.2 Ultrafast Coatings.............................................................................. 7187 @! J z, X. V4 ]7 R
16.3 Automatic Methods........................................................................... 729
! x5 C" D; U7 z) Y; a16.4 Gain in Optical Coatings.................................................................. 740
4 z5 x/ H# a; G& q, y16.4.1 Oblique Incidence................................................................. 744
2 ^) s6 b- x8 Y2 z" L! \16.5 Photonic Crystals............................................................................... 748# ]! L0 S7 p+ V+ ^8 \, ~/ s/ M0 u
16.5.1 What Is a Photonic Crystal?................................................7508 y7 `* e; i7 u9 b
16.5.2 Two-dimensional Photonic Crystals.................................7506 T% b6 @ k7 H5 F; x0 g; G+ H
16.5.3 One-dimensional Photonic Crystals................................. 751
" D c6 t+ r* j( PReferences......................................................................................................756
' ~3 C2 q, j; ~' ^17. Characteristics of Thin-Film Dielectric Materials...............................759
4 `1 w z5 D( c: F' W) g1 gReferences...................................................................................................... 766( L6 M" c* f# G. ~- C+ w! a
Bibliography.........................................................................................................771. m8 }$ w, r3 ]9 _
Index......................................................................................................................773& U3 i* k- H" e; l
8 D2 i/ C3 ? Q7 l
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