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PDF格式、英文、图片文字资料。13页( T, a' J* E6 ?+ k* m- e
Display Technologies - e1 n( v$ W3 ]2 N3 V, \
Inspired by Nature
; M) e4 ^3 ?- u P6 T: t* wLessons from mother nature
4 C- J n9 x' U& i3 ?& W仿生科技& |- r* {6 F3 v3 Z4 ^
Background picture: QUALCOMMMEMS tech1 h; G3 ]$ W- i) _# \4 W* T
Agenda/ \4 f6 j8 |7 L) |% k% f/ ]. J
Introduction5 v b1 N% t% U8 W
Display and components 3 ^5 c# c! }- G! L% B% h7 r: C
inspired from nature; N0 F. P( `. G7 i* m1 Y, n
Summary5 P$ k( v$ Q& v! s& L6 D9 y
We all remember these scenes
" R$ s0 J& U" oWhy are things colored : H5 e+ B! F+ {
Courtesy of Dr. R.O. Prum
* j, C/ `. z K5 c/ _! m# kKurt Nassua, in his book The Physics and $ S, n; A' T/ P; R5 ?, \
Chemistry of Color, identifies 15
' O- Z. J+ }7 {: n, ~9 t( }different causes of color
- n/ J, p3 F; N1. Incandescence x+ v7 y& h# H7 U, M& u. l
2. Gas Excitations, M) C) n: @5 m
3. Color from Vibrations and Rotations3 s: g$ W" s& Q' d, ]4 N
4. Transition Metals in a LigandField, W$ r4 J' S6 M6 r; @2 u1 Z& |
5. Organic Molecules, a/ ~& {# E4 f0 N/ J
6. Charge Transfer3 @* k$ Q6 R. ~" K: E
7. Metals1 {1 I9 ]6 p" q b
8. Semiconductors& Y$ J! e- U" }! l
9. Doped Semi-conductors
! N& g3 e, l9 D4 u& a# f9 W- C10. Color Centers
4 f8 A4 V/ z: a1 g; l# V11. Dispersive Refraction
$ q, X4 i( _/ |* O, M0 W- {$ k12. Polarization8 e: n2 U4 d4 K1 D6 { {- v# M2 O
13. Scattering3 a& u. L, [1 P; c4 U
14. Interference
, B' z# U2 Z; B4 X" g15. Diffraction |
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发表于 2007-12-14 11:53:54
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