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Woodhead Publishing Series in Electronic/ k0 @' g" Y) v1 a* v
and Optical Materials7 w, x" c! b$ x
Optical Thin Films and
. K( o3 K7 H5 y, |4 i1 R6 | k8 L6 {Coatings
( T# m' H, J, zFrom Materials to Applications
3 O& I0 x4 i/ \. n9 OSecond Edition6 `$ Z9 N4 J( B; y. ]8 N" ~1 K
Edited by
B3 \7 f& R5 e6 V0 M! r4 ?Angela Piegari
1 Z g) z& ^3 e8 l* R1 k1 gContents
5 |, A/ B1 `' P! K {Contributors ............................................................................................................xix
8 d y. \& H) I/ n1 nPreface to the First Edition ................................................................................. xxiii' i: J- E3 {' v }/ }- Y( T1 t g
Preface ................................................................................................................ xxvii! v i# Y, [1 u2 y
PART I DESIGN AND MANUFACTURING OF OPTICAL0 f8 G6 j$ y& H2 d4 d- @( P. Z
THIN FILMS AND COATINGS
. C; @( J' @, t& zCHAPTER 1 Recent developments in deposition techniques" C$ B( E% `+ P& Q/ `8 ]6 N9 u4 T
for optical thin films and coatings...............................3
3 z: e4 s- ]% a5 Z( U \0 h8 F6 SH. Angus Macleod
3 h H8 R* a, U9 G1.1 Introduction.....................................................................................3% G8 G8 Z4 C5 s( c. P1 l8 y
1.2 Early Processes for the Deposition of Optical Coatings ...............4
; @- X0 [6 x! i1.3 The Energetic Processes .................................................................6
0 E9 u& V- y8 Z# q9 m1.3.1 Ion-Assisted Deposition........................................................6
3 L% I8 b- `9 ~9 l0 m' a h" w1.3.2 Ion Plating.............................................................................8& o& L0 A2 O6 {! J6 K, C
1.3.3 Sputtering............................................................................10, I" b* U% c! ~- b+ A
1.4 Cathodic Arc Evaporation ............................................................151 s5 q+ l9 ^7 `( X. V: q: w
1.5 Pulsed Laser Deposition ...............................................................15
3 C2 n6 Z4 Q3 j" c5 W5 L, \1.6 Chemical Vapor Deposition .........................................................16
4 t$ X/ A+ N( u* z7 g$ N1.7 Atomic Layer Deposition .............................................................17
4 d r* x8 K* _+ b z: J; b/ s. K1.8 Sol-Gel Processes .........................................................................18
: ~; N# w4 Z, ^ E5 ]$ ?1.9 Etching ..........................................................................................18
I/ d6 U, V2 ~% Z1.10 Other Techniques..........................................................................197 h2 _8 Q) K* t5 K; g4 }1 N
1.11 Conclusion ....................................................................................19
$ I. M$ S' M" q& PReferences.....................................................................................20* d, Z2 {8 T3 q9 m7 |
CHAPTER 2 Design of complex optical coatings...........................25
3 ?! W5 i8 ~6 p1 v! h, K' TPierre G. Verly, Daniel Poitras$ x! q8 r2 I) M; P
2.1 Introduction...................................................................................25( [4 u4 y! D- B6 X. J
2.2 Modern Numerical Thin Film Synthesis Techniques ..................27
/ i6 m+ p% @5 Q) n2.2.1 Fourier Transform Method.................................................27
( B! e( e! P. e; r2.2.2 Inhomogeneous Refinement ...............................................30
* b' I. t9 G4 U5 Q9 l* v2.2.3 Needle Method ...................................................................32 W3 z; ?% h0 g+ D; B! m2 D
2.2.4 Global Optimization ...........................................................34
( b5 ]6 Z7 l- c1 P2.3 Manufacturability Issues...............................................................37/ d* R' s& i% I, ?7 W; X4 [
2.4 Hybrid Design...............................................................................40
& w N' }. J9 m2.4.1 Waveguide Facet Coatings.................................................41
4 p( D4 I/ o" K6 c7 [2.4.2 Structured Coatings ............................................................44
; N8 f1 r* j# G* l8 J, S2.4.3 Solar Cells...........................................................................48
4 Y7 i S2 O& A2.5 Conclusion ....................................................................................523 a( M. w$ m( h6 d
References.....................................................................................53
) P6 M, v5 I0 p: _( KFurther Reading ............................................................................64
" Y) V3 c( j& D9 N8 t+ W( yCHAPTER 3 Optical monitoring strategies for optical coating0 d8 I0 N7 K. p* z! ^" V
manufacturing .............................................................65
8 R" z9 C+ p+ E/ NAlexander V. Tikhonravov, Michael K. Trubetskov, Tatiana8 |3 V% ?/ z7 W& x4 j
V. Amotchkina
6 O E# r0 A1 u- q5 k6 M3.1 Introduction...................................................................................65) A6 n* I4 ~$ O$ C$ {7 i
3.2 Classification of Optical Monitoring Strategies ..........................67( C1 _+ _% Q' A1 M, w' B! F8 f; m
3.3 Turning Point Optical Monitoring and Error Self-Compensation4 i r: J- J) m- d+ j
Effect.............................................................................................69
4 P! S% U/ G2 u$ @6 K8 J6 w, d3.4 Level Monitoring: Passive and Active Monochromatic! k; ~5 o. R4 l2 |
Monitoring Strategies ...................................................................75! D3 P& c" T: s, @, [7 ~$ k
3.5 Monitoring by Swing Values .......................................................850 z0 m' p5 {' f3 {, x0 L
3.6 Direct Broadband Optical Monitoring .........................................89( A/ [ v2 Z4 X$ ~ n% g
3.7 Indirect Optical Monitoring Strategies.........................................92# m1 T* t& X8 }% h* @
3.8 Conclusion ....................................................................................97, R7 n' \9 y6 z5 B
References.....................................................................................99
* f V9 k$ t+ M# x; k dCHAPTER 4 Production strategies for high-precision optical
6 q; l% a6 u' O( F) y" e+ Rcoatings .................................................................... 103" Z* t( b# F/ r9 P. ?) [
Henrik Ehlers, Detlev Ristau
8 O3 v! T* T' a. V! _) u) w/ Z8 M; J4.1 Introduction.................................................................................1039 i& H) W. h9 h* |! K
4.2 Basic Concept of Deterministic Production...............................105/ F0 w7 U" H5 l. Y# u0 V* k- \2 O0 s
4.3 Optical Broadband Monitoring ..................................................107* Z$ I& m& m! T, W
4.4 Hybrid Thickness Monitoring Concepts ....................................112* j" w! O( o: ^9 K
4.5 Virtual Deposition System .........................................................114& m9 H/ B7 k# r. a6 P( j8 @
4.5.1 Deposition System............................................................1157 }# n* d1 u! S2 |# v/ u. ~0 V
4.5.2 Online Measurement System............................................116
" b, I, V8 E7 b! i' W4.5.3 Process-Tracing Algorithm...............................................1167 ~5 u, b. z _) T0 @- @% ^
4.5.4 Application Example for a VDP Analysis .......................117
4 }# ?: t8 ~6 E7 h5 F: G5 t4.6 Direct Online Correction Tools..................................................118% W! y* f* r( l% [
4.7 Design Stability in Production Processes...................................120
! o$ F3 _9 i B. ?, h! H4.8 Deposition Control of Coating Systems with Continuous' y% p$ h0 u' Y7 W
Refractive Index Variation .........................................................1250 R& \+ p7 X1 p8 {5 P( H
4.8.1 Production of Material Mixtures......................................126( |. B) V( x* I& \* I5 S1 `7 y* y% ?
4.8.2 Deposition Control of Rugate Filters ...............................132; J5 v/ F6 i( d. N( {* f
4.9 Conclusion ..................................................................................1358 x. o" {) Z$ _2 T. G
References...................................................................................136
@0 i* ?& N* J2 Y. z+ N7 G% a [Further Reading ..........................................................................140
( S6 o* p- Z# N6 f/ \vi ContentsPART II UNCONVENTIONAL FEATURES OF OPTICAL THIN% X* y5 }" B& @# q, q+ A4 h* }
FILMS AND COATINGS1 q* V" o# d; R, L$ A) Q; E# m! C
CHAPTER 5 Complex materials with subwavelength inclusions/ y9 @* C# C' ^ ?4 v1 b- R- H! p# G
for optical thin film applications ............................. 143
& V# M4 Q: F, o! aAnna Sytchkova s* j; D( F$ ^% d P* p( a% S
5.1 Introduction.................................................................................1434 }' g4 C3 F r$ I
5.2 Physics of Some Classes of Novel Materials with
: f2 }0 k, O' P+ R- f. @; cSubwavelength Inclusions ..........................................................1453 _# D& n+ a0 b5 z
5.3 Ceramic Matrix With Embedded Nanostructures......................147
2 H9 \; ]- `1 C5.3.1 Materials With Quantum Dots .........................................148
- o7 c9 r" j0 L. R& Z5.3.2 Nanoclusters in Periodic Arrays (Metamaterials)............149/ I# z# |, K$ x5 u2 h
5.3.3 Effect of Small Random Disorders and Imperfections) L8 M& N* f* E" g7 X$ Y0 b; X8 D
in Metamaterials ...............................................................1544 z" T. H& K) i) T
5.3.4 Composites of Random Elements ....................................154
7 F! d- p9 o3 J6 K1 O5.3.5 Coatings Containing Thin and Ultrathin Metal Layers3 H- a: ~5 b# ]. @: e1 \
and Coatings Containing Metasurfaces............................155
8 \; |. `; e7 |) v; i( o# _! w5.4 Searching for Alternative Materials for Resonating
% B- [, x1 H* G0 LInclusions ....................................................................................156" X" Q$ H L2 ?' o) A( N) v
5.4.1 Alloys and Intermetallics: Novel Metal Materials ..........157) ^( s, h8 @# X R- d6 D
5.4.2 Semiconductors and Dielectrics .......................................160
5 x5 g2 O" S" h- [& C5.5 Characterization of Novel Materials with Subwavelength; T! V; }8 s4 y: P
Inclusions ....................................................................................162
& q/ O8 z3 W/ M$ k' e0 Q, b6 Z5.5.1 Optical Characterization Techniques for Complex
8 L* b, l' f4 f. ZMaterials ...........................................................................163
0 c4 G+ e \3 ~# e/ x: B6 w! c5.5.2 Local Properties of Nanostructured Materials .................165
& v3 C9 J- I5 l5.5.3 Effective Macroscopic Parameters...................................166
8 r X; D) N: L- M5 ]& k2 E m5.5.4 Complex Materials and Ultrathin Metals in Multilayers.168
- }* n0 c0 ~2 w' V" y, J7 b( n" n5.6 Conclusions.................................................................................172
* d( N1 b( e4 L. e% ^5 z% u, E8 rReferences...................................................................................173# k6 D- ]4 u! D% J5 t
CHAPTER 6 Scattering properties of random structures5 m4 b/ D3 C! S' q
in thin films............................................................... 187
& D# B+ f3 r, ~5 x' z8 TGerard Berginc, Alexei A. Maradudin7 l# _ s5 I1 y( D8 J
6.1 Introduction.................................................................................187' j9 y6 Q ^8 r, Y$ l4 i/ ]6 u6 j3 ]
6.2 Numerical Solution of Reduced Rayleigh Equations9 g9 q. ^/ c; u. V# ^
for Scattering of Light From Dielectric Films With 1D
\+ H K8 s, [* Q- t+ M8 h2 nRough Surfaces...........................................................................189: M( w/ ~# _$ w9 x8 P
6.2.1 A Film With a 1D Randomly Rough Vacuum-Dielectric& [+ i6 d1 h/ G8 n1 u! o& l+ A6 [
Interface Deposited on the Planar Surface of a Perfect$ d) m6 J; T" ?. b6 O& N2 Q2 n( J! K
Conductor..........................................................................1906.2.2 A Film With a Planar Vacuum-Dielectric Interface
' ~8 F% \0 s% ^7 B: l7 V4 KDeposited on a 1D Randomly Rough Perfectly. n0 n# @% Z/ r3 X9 Z# c0 h
Conducting Surface ..........................................................196
' X: ]) L& m4 Y0 f& G6.3 Reduced Rayleigh equations for the scattering of P- and
$ ?8 e: B n: M$ h3 u3 T; ]* tS-Polarized Light From, and Its Transmission through, a Film% [6 r8 S' }0 N" p9 I0 K' U; h5 S
With Two 1D Rough Surfaces ...................................................200
* b/ E4 ^7 i$ z) y6.3.1 p-Polarization....................................................................203
/ m# S: B+ U- h! S3 }- M6.3.2 s-Polarization ....................................................................207
# V2 ]) p0 ^- f( i, B6.3.3 Results...............................................................................209! ]& \& u. Z% ]9 _1 W
6.4 Numerical Solution of the Reduced Rayleigh Equation6 Z/ E, p: u( R3 P, P& z3 Y7 e
for the Scattering of Light From a 2D Randomly Rough
* j2 W6 m5 l' `0 CPenetrable Surface ......................................................................213
7 b' p" h) i; D; W+ S+ M6.5 Scattering of Light From a Dielectric Film With a 2D Randomly8 v5 a7 W$ l) ?* Q: C$ I& ~6 [# J1 u
Rough Surface Deposited on a Planar Metal Substrate.............216
) G% g/ Y t# }1 l, [' w4 q6.5.1 Scattering of Light From a Dielectric Film With a 2D
# I6 J* H! X) ^% k# C9 J6 P& vRandomly Rough Surface Deposited on a Planar Metal) X& Z* Q+ k" X1 _7 Q
Substrate............................................................................218 h! ~, ]; W) C' r
6.5.2 A Dielectric Film With a Planar Interface With a
, H4 c! j# I# ^/ BDielectric Superstrate and a 2D Randomly Rough' h/ C0 o2 `$ ]% U+ Y. j5 j
Interface With a Dielectric Substrate...............................224
. x0 M6 Z4 @+ b5 S) F) y% H6.6 Analytical Methods for the Scattering From a 3D Film With1 m! ~% E0 M* k3 S
Randomly Rough Surfaces .........................................................229
/ P% k6 o! _1 u) U6.6.1 Definition of the Scattering Matrix..................................2309 b8 j8 @7 F% }4 A U- m+ j
6.6.2 The SSA and the SPM for a 2D Rough Surface .............233& E g4 A3 @3 a
6.6.3 The SSA and the SPM for Slabs With Randomly
( a3 p: e" O* @% eRough Boundaries ............................................................240$ g8 ?4 o, A9 q& X9 D: L
6.6.4 Conclusions.......................................................................247
5 v; _6 o( S2 o1 f+ Z6.7 Theoretical Methods for the Scattering of Polarized Light1 O: L' l" S8 ^. u
From Randomly Rough Interfaces and Random Media............247
" r1 H% L# B: H: S# v6.7.1 Specific Intensity and Cross Section................................2483 x9 e3 W4 D+ ]( l; b" F) @. U7 P
6.7.2 Specific Intensity and Bethe-Salpeter Equations.............253
* X) U* t; Z: L, @4 k6.7.3 Effective Permittivity .......................................................255
: }/ @; e3 n' j" B* S! `6.7.4 Expression of the Intensity Operator P11 .........................256& _2 g' H8 } f2 @ Z4 a& m* z
6.7.5 Expression for the Incoherent Intensity and the Green
& m- _, |, l& B5 U( u! PTensors P11 .......................................................................259+ ?7 G% E& @" a X2 S( H1 N
6.7.6 Coherent Backscattering...................................................265
& U7 S g0 m6 U+ N6.7.7 Conclusion ........................................................................2735 Z w2 e7 d! s2 v" l8 o8 L
6.8 Applications ................................................................................273
* O1 @' n7 z Z W, a6.9 Conclusion ..................................................................................281
# W; x7 L1 {8 O6 xAppendix.....................................................................................281' S% p# m- |5 _+ c; n! t5 Y
viii ContentsA.1 Definitions of the Scattering Matrices for a Single Rough4 D- z' x: n" P( U' B& G: y% ^2 }
Surface ................................................................................2817 u% V$ h' ]+ A
A.2 Mueller Matrix and Tensor ................................................282! G' [/ [' }7 e$ w/ K& R
Acknowledgments ......................................................................284/ b [6 \7 M4 {7 w
References...................................................................................284
# B7 x; {) [( nFurther Reading ..........................................................................289* J1 ^. b1 k0 k' o+ M( q4 p ]2 I
CHAPTER 7 Optical properties of thin film materials at short
5 v+ x4 O; u5 ]0 uwavelengths .............................................................. 291
: s: m. x4 @% B) YJuan I. Larruquert
8 u8 j3 j4 i+ c7.1 Introduction.................................................................................291* V9 d4 T# {1 |, G$ p1 `, ~, E3 @
7.2 Material Behavior Over the Spectrum .......................................291
4 b4 y3 c0 ^* Z6 ?$ v7 m7.3 Reflection and Transmission in Absorbent Materials ...............294
% U9 e1 I8 i1 }0 Z0 c7.3.1 Roughness and Scattering ................................................296
$ c: B. S! A2 G( {+ u0 `7.4 The Optical Constants of Materials at Short Wavelengths .......299& r( Q: x2 ]" @
7.4.1 Interaction Mechanisms Between Photons
$ C+ n/ a1 Z9 X/ n/ ?and Matter.........................................................................2992 Q) N9 ]2 v6 f; d0 Y
7.4.2 Transparency Cutoff of Dielectrics ..................................300. P9 `9 d( a& F7 L; H
7.4.3 Free Electron Metals ........................................................301
0 ?+ _$ K4 h0 K; e7.4.4 Tightly Bound Electrons: Atomic Scattering
# }2 {1 w) V( e- s& {Factors...............................................................................3036 c" _" p+ d, U3 K8 m
7.4.5 Absorption Edges..............................................................306
5 l* R, r$ U6 E0 C& ^7.4.6 Optical Properties at Higher Energies..............................309$ y5 t& e$ N" f) A: ~0 |4 [8 |. }; _
7.5 Link Between n and k: Kramers-Kronig Analysis.....................314/ p/ A* {3 e) f: X
7.6 Experimental Determination of Optical Constants ....................315
# g) h0 {/ i6 p4 w) T7.7 Specifics of Optical Coatings at Short Wavelengths.................318
, n, r) k8 P- U# P4 o7.7.1 Transmission Filters .........................................................318: O7 E" E3 `3 z" [
7.7.2 High-Reflectance Coatings...............................................321
( T- P7 j3 A! t, W. m7.7.3 Linear Polarizers and Phase Retarders.............................332# {* |4 T3 C2 x! u5 ~; ~
7.8 Conclusion ..................................................................................341
# Q# {# h$ B ]% S1 pAcknowledgements.....................................................................342: ^1 s$ l% r8 F* v+ D4 r
References...................................................................................3421 U( X2 M+ k3 p
CHAPTER 8 Controlling thermal radiation from surfaces............ 3571 w7 i1 T$ N4 B0 v
Carl G. Ribbing
9 O4 J: a" b# b4 t @7 M T8.1 Introduction.................................................................................357- _7 v1 C0 D1 ?, o* r
8.2 Blackbody Radiation ..................................................................3594 D% w* N; l3 E
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