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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!! Y3 y( _3 o h! h# f/ q
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' Q! h3 j+ h* \- W5 Y% X2 y7 f3 \ 2011.06.26
* W) m4 Q$ _* [" \6 p' P: U* @4 |# p9 {! h5 q4 N+ K8 K7 B
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附: 《Thin-FILM Optical Filters》目录: 2 M& S o, {, @0 R" C( F# b
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。
/ t, J/ e9 X- ^/ m: r
8 M6 Q& q% Z( FContents
0 O: v" M7 q- c5 x+ z9 SPreface to the Fourth Edition............................................................................. xiii4 y& e- Z4 I, c e6 a
Symbols and Abbreviations.................................................................................xv7 P' S* W. X4 }
1. Introduction......................................................................................................1
; y& q e! j* C/ C D4 t" G1.1 Early History...........................................................................................19 f* N) r$ M( g* R
1.2 Thin-Film Filters.....................................................................................5! ~9 W. \* S8 p0 G
References........................................................................................................ 10
) i( A' h- m: x# h2. Basic Theory...................................................................................................13
7 ]! `% x7 ?% N* C2.1 Maxwell’s Equations and Plane Electromagnetic Waves............... 13
0 L% e' |; O/ C2.1.1 The Poynting Vector............................................................... 18
* Y7 U' {( J/ w/ I, G+ }2.2 The Simple Boundary.......................................................................... 21- o0 n) x; N0 j1 q+ y# _4 D
2.2.1 Normal Incidence...................................................................23
2 y5 L- X, ~4 j2 G6 p) b6 E2.2.2 Oblique Incidence...................................................................278 T; L! [+ p1 o2 m1 q
2.2.2.1 p-Polarized Light.....................................................28+ @; W" |. c! H. m* u. O
2.2.2.2 s-Polarized Light......................................................30
9 }7 v1 H6 d! M4 \2.2.3 The Optical Admittance for Oblique Incidence................. 31: t C- N* \7 s
2.2.4 Normal Incidence in Absorbing Media...............................33
* q: v( D; e( W1 r: h5 s! }; z" j2.2.5 Oblique Incidence in Absorbing Media...............................38
2 D( `; e0 K# s4 s% T7 f2.3 The Reflectance of a Thin Film..........................................................42
% ?& ?+ M8 @5 h$ ]; T2.4 The Reflectance of an Assembly of Thin Films...............................452 P. U, w, Z, |8 ~* x3 U
2.5 Reflectance, Transmittance, and Absorptance.................................48
# ^% ~! Y2 g# G8 P2.6 Units....................................................................................................... 51 A6 z& f. [" I/ |
2.7 Summary of Important Results......................................................... 52% ~9 u7 Q, V7 r* o' H
2.8 Potential Transmittance......................................................................57
# U' G: j3 l* y6 T# K" h/ e2.9 A Theorem on the Transmittance of a Thin-Film Assembly.........60
2 W" q9 |1 c% W& q0 h2.10 Coherence.............................................................................................. 61
1 R" i$ l J# Y9 `; H* f" y2.11 Incoherent Reflection at Two or More Surfaces...............................66. @" s) s" A0 U) A/ f- a) T. g& d+ ~
References........................................................................................................71% Y- \7 R1 I/ O6 {6 l
3. Theoretical Techniques................................................................................73
" |# \7 H0 l, U3.1 Quarter- and Half-Wave Optical Thicknesses.................................73
$ |% L' F3 c; x3.2 Admittance Loci................................................................................... 747 ~# A8 u9 F/ A/ ?$ ?+ T
3.3 Electric Field and Losses in the Admittance Diagram...................80, z, ]) @) h# g, D2 {( v4 H+ j
3.4 The Vector Method..............................................................................87
- J1 _3 P8 }& C- u; z0 Z+ ^3.5 The Herpin Index.................................................................................89' d* v: m: Z6 q2 t
3.6 Alternative Method of Calculation....................................................89( M+ ?5 ~2 L# h& k3 l* a$ c
3.7 Smith’s Method of Multilayer Design...............................................92
6 X2 Z3 m& p" b! U# i7 j# x3.8 The Smith Chart...................................................................................95
1 m0 J( |, S9 C3.9 Reflection Circle Diagrams.................................................................975 A; U* F3 _! \/ A: J$ J, U/ S/ m
References...................................................................................................... 1033 H3 V( W( }' r9 m# I0 p1 I* }: S) J
4. Antireflection Coatings..............................................................................1055 }. [4 T4 k- `1 T2 ~
4.1 Antireflection Coatings on High-Index Substrates....................... 106
( B7 B5 k. w/ c+ @4 C( w+ B: N4.1.1 The Single-Layer Antireflection Coating........................... 106' a$ W! [! X: ^
4.1.2 Double-Layer Antireflection Coatings .............................. 112& ?3 f, V+ I% c$ m6 j( E4 m
4.1.3 Multilayer Coatings.............................................................. 121
% [$ X- _1 v h' a4 N! b7 }3 n" q# O4.2 Antireflection Coatings on Low-Index Substrates........................ 129% n0 p: J0 c! E1 i: s
4.2.1 The Single-Layer Antireflection Coating .......................... 130
6 r6 L( {; c# o6 T4.2.2 Two-Layer Antireflection Coatings ................................... 130) z, H& N' W( A: y; _$ w
4.2.3 Multilayer Antireflection Coatings.................................... 140
8 [/ b4 U P% C4 X. {4.3 Equivalent Layers............................................................................... 156% c: u. S1 x4 w, _
4.4 Antireflection Coatings for Two Zeros........................................... 168. z6 B( G& {* M3 R
4.5 Antireflection Coatings for the Visible and the Infrared............. 172; Z! \+ g$ \7 t. j$ H
4.6 Inhomogeneous Layers..................................................................... 1798 y% n- e/ M0 T+ C4 J9 E
4.7 Further Information........................................................................... 182
' D9 M. o7 w% pReferences...................................................................................................... 1837 \+ x7 F' W- R6 t' E9 J: p
5. Neutral Mirrors and Beam Splitters........................................................185
9 K, f/ b ?! X7 o5.1 High-Reflectance Mirror Coatings.................................................. 185
6 O$ |6 E' R2 x$ Y! \, e7 Q* x; s+ E5.1.1 Metallic Layers...................................................................... 1857 ?9 H0 [6 ?+ ^3 M( G3 G
5.1.2 Protection of Metal Films.................................................... 187" [1 L/ l# S" { |. L- X6 V/ @
5.1.3 Overall System Performance, Enhanced Reflectance...... 1935 U z/ g7 {$ O/ Q' e5 ~" `
5.1.4 Reflecting Coatings for the Ultraviolet.............................. 196: E, H( d* V: V! [
5.2 Neutral Beam Splitters...................................................................... 198# p0 n, R2 S* w- b9 ~0 f
5.2.1 Beam Splitters Using Metallic Layers................................ 198" z" X+ }6 d |* S
5.2.2 Beam Splitters Using Dielectric Layers............................. 201
% f: e$ X% D0 ^9 Q5.3╇ Neutral-Density Filters.........................................................................2054 d. S: z# y$ H( e
References...................................................................................................... 207
0 G7 t- D8 u) f: b; c. R6. Multilayer High-Reflectance Coatings...................................................209
/ _+ b! a! W0 `- y$ S4 q$ U- |" a6.1 The Fabry–Perot Interferometer....................................................... 209! |* @4 O: O2 z. W) U
6.2 Multilayer Dielectric Coatings......................................................... 215( ?0 I) S$ g0 H& [
6.2.1 All-Dielectric Multilayers with Extended
n3 g7 s# j: k1 ?) G- R# o8 y7 hHigh-Reflectance Zones.......................................................225
( }, S3 x: d% ?- r6.2.2 Coating Uniformity Requirements....................................230; u) l5 i1 _( _/ s
6.3 Losses...................................................................................................234
+ y6 Z6 G7 \* `% hReferences......................................................................................................238
- O! [* X" a2 w- U7. Edge Filters...................................................................................................2410 A% J0 s! O3 d. x9 R( |" L( Z( Z4 ^, V
7.1 Thin-Film Absorption Filters........................................................... 241
: W+ H: ^5 E4 g+ ]# D7.2 Interference Edge Filters................................................................... 242) u; N: o, j9 d5 d# B' D* c
7.2.1 The Quarter-Wave Stack...................................................... 243
( I& {; v0 Z. a( J) K. e7 A; W7.2.2 Symmetrical Multilayers and the Herpin Index..............244
( K2 ]: Y+ w9 ?$ I: K# W- U( a$ @6 a" `7.2.2.1 Application of the Herpin Index to the( C# P; u: O4 e# k
Quarter-wave Stack.............................................. 248
* |- D0 N4 }# p. @7.2.2.2 Application of the Herpin Index to
E, m x6 i& T' y9 F KMultilayers of Other Than Quarter-waves.......2534 P0 q Q/ r# k! C* a3 u( P% X
7.2.3 Performance Calculations....................................................256
# D+ w9 W j4 v9 N5 b! a# d7.2.3.1 Transmission at the Edge of a Stop Band...........256, i6 P. N, A: K$ R+ p$ \
7.2.3.2 Transmission in the Center of a Stop Band.......258! w( h2 v9 w* u% L
7.2.3.3 Transmission in the Pass Band............................ 260& e9 I8 G/ R8 h @6 u
7.2.3.4 Reduction of Pass-Band Ripple........................... 262. u. M4 l3 N' ?. J' h9 \
7.2.3.5 Summary of Design Procedure so Far...............2652 x3 v# C8 T5 l$ ^( r5 e; M7 t O8 D
7.2.3.6 More Advanced Procedures for Eliminating
$ f7 R* e' g1 SRipple......................................................................266 N# ~" `. g' X9 J" C, T: Q
7.2.3.7 Practical Filters...................................................... 281
; h( U, Y9 f3 ]- b# V8 G9 L7.2.3.8 Extending the Rejection Zone by% T3 H, D0 _1 ]3 @. Q7 w
Interference Methods............................................283
* ?& P$ J- Q* m7 f5 Z3 x1 G7.2.3.9 Extending the Transmission Zone...................... 287
) B/ R1 u1 i+ ~# Y) Y5 t7.2.3.10 Reducing the Transmission Zone....................... 2959 Q! m% H: R+ B
7.2.3.11 Edge Steepness...................................................... 296
* i7 `. Z. P) N c, u+ yReferences...................................................................................................... 297: M# E3 }' M2 r) W3 L) B4 b
8. Band-Pass Filters..........................................................................................2992 I3 w7 X: F! d
8.1 Broadband-Pass Filters......................................................................2991 U( O: l4 S. x0 k
8.2 Narrowband Filters............................................................................3021 R3 y7 E# e, F" T3 i2 Y# O" x4 T' J1 S
8.2.1 The Metal–Dielectric Single–Cavity Filter........................302
& ?' S g" \( a, @, _8.2.2 The All-Dielectric Single-Cavity Filter.............................. 310
' s$ B8 S% u' J+ z- M0 v8.2.2.1 Case 1: Even Number (2x) of Layers................... 3130 D0 J6 i: }/ {& I) Q+ |' l
8.2.2.2 Case II: Odd Number (2x + 1) of Layers............. 315
0 v0 }. B$ H0 g/ M8.2.2.3 Phase Shift: Case I................................................. 316
/ F8 X x& ?* ?& m2 {) w8.2.2.4 Phase Shift: Case II................................................ 317/ _$ a# p8 Y/ o3 c* ^7 t
8.2.3 The Solid Etalon Filter.......................................................... 3250 W. c- D9 F8 r6 }0 c+ }
8.2.4 The Effect of Varying the Angle of Incidence................... 329
. ^1 D* w$ c" B+ p" `, T" ]& G* U8.2.4.1 Simple Tilts in Collimated Light......................... 329
, c& g. }, X( [6 y ~7 E8.2.4.2 Case I: High-Index Cavities................................. 332
, z/ k5 N0 I; N1 @9 O- `8.2.4.3 Case II: Low-Index Cavities.................................3337 ~1 s" B% b; w0 f$ q9 j. `2 @
8.2.4.4 Effect of an Incident Cone of Light.....................335
`! o* p( k1 W/ S {: N- |6 _0 u8.2.5 Sideband Blocking................................................................341/ p- n2 y" e/ L: o7 J* Y# x |
8.3 Multiple Cavity Filters.......................................................................342
- `* \, u# G# C0 S, _/ w: B8.3.1 Thelen’s Method of Analysis...............................................3499 z& v. V3 W o* Y( u7 N8 ?* A
8.4 Higher Performance in Multiple-Cavity Filters............................356* f w3 g4 D) T( B8 B2 R3 i/ e" n
8.4.1 Effect of Tilting......................................................................364
* F V& \1 M. s7 ~' S8.4.2 Losses in Multiple Cavity Filters........................................ 367( h# E- Z7 s1 W; h2 v$ r
8.4.2.1 Case I: High-Index Cavities.................................368
9 y7 z3 @" l; ]; P6 p+ K- \8.4.2.2 Case II: Low-Index Cavities................................. 3697 h. Y. r' u( v g: L
8.4.3 Further Information............................................................. 369/ W2 |% Y" T( K2 r, [ D" n, H
8.5 Phase Dispersion Filter..................................................................... 370
- g# Q1 g# g2 {+ p8.6 Multiple Cavity Metal–Dielectric Filters........................................ 377
h. S# ~6 K) h4 i% c( v, z' R8.6.1 The Induced-Transmission Filter........................................380$ L: o4 D" T, Z
8.6.1.1 Potential Transmittance........................................ 381. t+ K) V! q$ }3 M
8.6.1.2 Optimum Exit Admittance.................................. 382) T5 [" i1 k; K4 T6 `
8.6.1.3 Maximum Potential Transmittance....................384
4 Z; s, C' _, V9 {) U3 _: q2 k% {: e8.6.1.4 Matching Stack......................................................384# z! T' d0 E# C. B& n& w1 x. k+ @
8.6.1.5 Front Surface Equivalent Admittance................3866 y9 u4 N; H& A8 c+ E# \
8.6.2 Examples of Filter Designs..................................................386
; x: z) r/ @1 ?- B- h E8.7 Measured Filter Performance........................................................... 396$ S! i# w- S& W/ y
References...................................................................................................... 399
& k# M* ~: U6 z+ `6 M0 d9. Tilted Coatings.............................................................................................403
7 o i3 o3 {7 G7 ?9.1 Modified Admittances and the Tilted Admittance Diagram......403, n( E: ~8 i( `
9.2 Application of the Admittance Diagram........................................ 411
6 I' J1 S8 |0 m& `) \4 B9.3 Polarizers.............................................................................................425* _- p, I9 |2 M0 h5 d& v4 T
9.3.1 The Brewster Angle Polarizing Beam Splitter..................425
* P% S5 ]9 p. u, I9.3.2 Plate Polarizer........................................................................4301 ~* I* s. f& S2 A Q% Y" z
9.3.3 Cube Polarizers..................................................................... 431) B- g$ n7 V( {6 v
9.4 Nonpolarizing Coatings.................................................................... 4318 j3 ^1 |1 u. j$ Q6 u- V
9.4.1 Edge Filters at Intermediate Angle of Incidence.............. 432' Y# }& G8 X, |
9.4.2 Reflecting Coatings at Very High Angles of, W1 @4 p8 D4 G
Incidence................................................................................ 4374 Y0 _. f; l# E+ r& @: H% U
9.4.3 Edge Filters at Very High Angles of Incidence.................441 j4 V$ o6 F; k( L% D
9.5 Antireflection Coatings.....................................................................442. q1 N$ h$ b( i4 Q1 i: |: T5 J
9.5.1 p-Polarization Only...............................................................442
# R& n! y: F$ x& ]% R8 p8 A1 B9.5.2 s-Polarization Only...............................................................443
4 }, q& R3 e; m; X! @1 h; }4 m* _9.5.3 s- and p-Polarization Together............................................444; p& H2 b2 i7 W; X. n
9.6 Retarders.............................................................................................4479 o4 D/ V, Y/ u2 y
9.6.1 The Ellipsometric Parameters and Relative2 x+ z$ |. S4 H! h! Z
Retardation............................................................................447
K9 Z# W% h6 v. [- x% V+ E' i o9.6.2 Series of Coated Surfaces.....................................................448
" r" j4 x. l! O9.6.3 Retarders................................................................................449
& Q) t8 n" |) E4 ]9.6.4 Simple Retarders................................................................... 451: } y! r! ?7 j1 r' k: |3 k
9.6.5 Multilayer Retarders at One Wavelength..........................455( w6 z q3 j3 c" [: q1 Q
9.6.6 Multilayer Retarders for a Range of Wavelengths...........459
/ E5 O' R, @. d, U! z2 g# c9.7 Optical Tunnel Filters........................................................................464
7 {; G$ x; E+ x; |" iReferences...................................................................................................... 467
" {2 C6 ^! U, k f6 e/ @10. Color in Optical Coatings..........................................................................471% `- K: I5 R% }0 [' c3 H- }! L
10.1 Color Definition.................................................................................. 4714 t, l0 [: g" B% Q
10.2 The 1964 Supplementary Colorimetric Observer.......................... 478
+ V( x; g% T: g10.3 Metamerism........................................................................................ 479
6 D4 q+ X& l* ]5 D10.4 Other Color Spaces.............................................................................4806 a- a h, f' E5 t( W7 T) O
10.5 Hue and Chroma................................................................................ 481
% l' r3 l& v9 N' X7 i10.6 Brightness and Optimal Stimuli......................................................482
+ q' Q* t, [6 M+ I0 G, L10.7 Colored Fringes..................................................................................485
6 B9 T8 B5 B$ K6 ?" I+ d/ y& I! T* rReferences......................................................................................................487# f x2 }6 R2 U5 K4 J
11. Production Methods and Thin-Film Materials.....................................489
: X: g' J3 [0 W7 f% V) k% v: T- s11.1 The Production of Thin Films..........................................................490
6 D: F+ [5 K8 ^- |. U* c11.1.1 Thermal Evaporation............................................................ 4912 S5 f% c1 K1 {, M+ S9 W
11.1.2 Energetic Processes............................................................... 501
5 K2 B9 @4 D) |2 N2 p, g( L11.1.3 Other Processes..................................................................... 513
( g$ ]2 h' n! r11.1.4 Baking..................................................................................... 517% v, l$ V. b: P# y/ I
11.2 Measurement of the Optical Properties.......................................... 520' o3 }5 D4 ]" }6 _! T9 S# F8 }
11.3 Measurement of the Mechanical Properties..................................540
6 R. A) Q3 ]; V! N11.4 Toxicity................................................................................................550
5 E4 G; h; ?# E- G$ e9 |11.5 Summary of Some Properties of Common Materials................... 5514 V9 F# `! Q$ M. b5 |! F6 S! G6 O
References...................................................................................................... 561) ]9 }4 D4 L, _0 c. C( R$ U: O
12. Factors Affecting Layer and Coating Properties...................................569
! Q: k% ~& O, D: _2 ?' M! N12.1 Microstructure and Thin-Film Behavior........................................ 569
1 |7 F7 E2 M' R5 U3 Q9 J12.2 Sensitivity to Contamination...........................................................584% o* _" Z" U$ S( i* Z# {2 J" S; j7 S
References...................................................................................................... 592
+ H4 @* {# _% k" c: }7 ]& R( N13. Layer Uniformity and Thickness Monitoring.......................................5951 V" _) v' o; R$ ]/ b, J' M6 C
13.1 Uniformity.......................................................................................... 595 K" [6 Z2 ]9 g' E, b
13.1.1 Flat Plate................................................................................. 597
0 n& h; \) R" p8 f4 w" T @13.1.2 Spherical Surface................................................................... 598/ G) H9 o5 u0 Y& o2 I0 S
13.1.3 Rotating Substrates............................................................... 5982 e6 n; {# F3 K) h; P8 }
13.1.4 Use of Masks..........................................................................603
& p: Y, f( i! }! v: x" ^+ s# r13.2 Substrate Preparation........................................................................604' ]9 B) |2 M9 T" P( i8 l) q
13.3 Thickness Monitoring and Control.................................................607
+ ^' n8 x! S% E! Y$ D13.3.1 Optical Monitoring Techniques..........................................608
; R! j' y6 T0 \ i( \0 H13.3.2 The Quartz-Crystal Monitor............................................... 618" K( z3 ~: ~+ M
13.3.3 Monitoring by Deposition Time......................................... 6204 \. [" I' O1 \: m
13.4 Tolerances............................................................................................ 621
7 C$ X: G7 b" {3 `/ _9 y$ rReferences......................................................................................................636
: A, F4 A$ _( H5 q1 u+ ~. O14. Specification of Filters and Environmental Effects..............................641+ _. W6 Y9 W2 ^% H" T G
14.1 Optical Properties..............................................................................641
' ]' B" [( p6 X0 Q% I3 I14.1.1 Performance Specification...................................................641
* X, t* }" J: f J; N$ ]14.1.2 Manufacturing Specification...............................................6443 u. H6 P3 f- l6 m
14.1.3 Test Specification...................................................................644
( Y- D) u& q8 X' F4 P14.2 Physical Properties.............................................................................648
% V; s& y: Q. o. ^$ s9 R14.2.1 Abrasion Resistance..............................................................6483 k+ V4 F6 G2 l% T
14.2.2 Adhesion................................................................................ 651
9 N2 w( v; u% q3 H4 e0 a14.2.3 Environmental Resistance................................................... 652 i; q* o2 z. T: M# C0 N
References......................................................................................................653" N) O* z, M2 o' g+ B2 R
15. System Considerations: Applications of Filters and Coatings...........655
9 g0 _- U: M- W15.1 Potential Energy Grasp of Interference Filters ..............................6595 F$ W3 W# p3 T5 v! |
15.2 Narrowband Filters in Astronomy..................................................665
5 b! \6 b; }7 ~3 l15.3 Atmospheric Temperature Sounding.............................................. 670
5 F4 P2 c: t' u15.4 Order Sorting Filters for Grating Spectrometers........................... 679
" `- x$ _( \3 W+ G15.5 Glare Suppression Filters and Coatings......................................... 6917 R% ?/ @! p( D2 e8 k: s
15.6 Some Coatings Involving Metal Layers.......................................... 695
$ i) `6 V6 S6 O15.6.1 Electrode Films for Schottky-Barrier Photodiodes.......... 695
" V, V3 R- a1 n9 B) E15.6.2 Spectrally Selective Coatings for Photothermal Solar0 e0 K' ]' c1 g9 X2 B
Energy Conversion............................................................... 698' P; e1 A' l3 f3 _8 n
15.6.3 Heat Reflecting Metal–Dielectric Coatings ...................... 703
8 n( p# h( [ C H4 x7 c; eReferences...................................................................................................... 705' P o0 Z, e3 Z" ^/ @' }' L2 A
16. Other Topics..................................................................................................707
6 l4 n4 U8 p) R; p16.1 Rugate Filters...................................................................................... 707: i" ?* i1 E {
16.2 Ultrafast Coatings.............................................................................. 718 H2 b$ A' w" k2 k/ \" v$ W
16.3 Automatic Methods........................................................................... 7291 X) K5 U: h* w. r3 V1 @3 N- R F
16.4 Gain in Optical Coatings.................................................................. 740. T+ O M3 d. S- w* }4 ^
16.4.1 Oblique Incidence................................................................. 744
; y; u/ @' |' c5 L3 R/ }! b' n- y16.5 Photonic Crystals............................................................................... 748) O4 F! H% Y4 k5 f
16.5.1 What Is a Photonic Crystal?................................................750& m r% I' T# x( a( X; c
16.5.2 Two-dimensional Photonic Crystals.................................750
# [" W5 q5 x' D( B0 `2 y16.5.3 One-dimensional Photonic Crystals................................. 751* k' p. C, `& z3 |! R
References......................................................................................................7569 l) k/ p. j4 s# g( k; [
17. Characteristics of Thin-Film Dielectric Materials...............................7598 X. o! Q; e/ {* y# D
References...................................................................................................... 766- o; a' m4 O; Q0 @( q
Bibliography.........................................................................................................771 P. I8 ?# [5 m4 ^
Index......................................................................................................................773# d8 v- r. k" z
' {. G) z* l, j% v& t0 L9 W3 [. J& w0 Y; ~
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