scorebean |
2010-02-07 16:52 |
這是好書一本… 0cJWJOj& 程度中等 HbXPok 雖然用oslo為例,但是並不會影響閱讀 [%77bv85.G 值得下載…雖然是scan版的 0V'nK V"| z7Q?D^miy 1. Introduction 1 D<_N 2. Historical Review A?-oL=' 2.1 Definition of Optical Engineering YKO){f5 2.2 Ancient History f"qga/ 2.3 Medieval Optics aVK3?y2 2.4 From 1600 to the 1900s il:$sd 2.5 Speed of Light rL+!tH 2.6 Modern Optical Engineering
Ahk8 2.7 Case History: Optics in the United States lzYnw)Pv 2.8 Recent Incident: the Hubble Telescope Q4f/Z 2.9 Review and Summary YwZ
Z{+n 3. Basic Concepts of Light 2\7`/,U6 3.1 Light: an Elusive Topic ^xij{W`| 3.2 Understanding Light v(EEG/~ 3.3 Velocity, Wavelength, and Frequency $CY't'6Hn 3.4 Wavefronts and Light Rays b+f'[; 3.5 Light Sources )0Me?BRp 3.6 Behavior of Light Rays 7tcPwCc{ 3.7 Refraction yjhf
3.8 Refraction by a Lens 8"fD`jtQ 3.9 Dispersion and Color )tl.s)"N 3.10 Diffraction of Light [L:o`j 3.11 Review and Summary xYhrO 4. Thin-Lens Theory @ ]/AjjLt 4.1 Definition of Thin Lens pb$~b\s]= 4.2 Properties of a Thin Lens + j W1V}h 4.3 Aperture Stop, Entrance and Exit Pupils, and Field Stop wyQzM6:,yX 4.4 Reference Coordinate System *{yK
8 4.5 Thin-Lens Power 4*'pl.rb> 4.6 Ray Trace of a Thin Lens (Object at Infinity)
AiK 4.7 Ray Trace of a Thin Lens (Finite Object Distance) `~ * @q! 4.8 Rounding Off uU:CR>=AKW 4.9 Thin-Lens Formulas ,;(PwJe 4.10 Applications of Thin-Lens Theory DXa-rk8 4.11 Mock-up of the Thin-Lens System LWHd~"eU 4.12 Review and Summary l"2OP6d 5. Optical Design Basics %"af748!+D 5.1 Introduction U
)l,'y2 5.2 Historical Perspective qfK`MhA} 5.3 OSLO Optical Design Software Package -tyK~aasQ 5.4 Introduction to Computer Design using OSLO cdG|m[ 5.5 Laser Transmitting System m
q{]; 5.6 Instrument Design and Analysis $pFo Rv 5.7 Magnification Analysis 2c:#O%d( 5.8 Design of a Noncatalog System cg*)0U-_( 5.9 Review and Summary Ie4 hhW 6. Primary Lens Aberrations X_g 3rv1J 6.1 Introduction
stk9Ah 6.2 Spot Diagram, Radial Energy Distribution, and Modulation Transfer Function =@8H"&y` 6.3 Spherical Aberration =n'
4?W@ 6.4 Coma }-o{ASC# 6.5 Field Curvature mUz\ra;z 6.6 Astigmatism OLvcivf 6.7 Distortion OKvPL=~ 6.8 Axial Color kr9gK~ 6.9 Lateral Color *s>BG1$< 6.10 Aberration Curves !DI{:I_h( 6.11 Point-Spread Function Analysis zWb4([P; 6.12 Review and Summary 3t0[^cY8=z 7. Optical Components _"#!e{N| 7.1 Introduction d'|,[p 7.2 Lens Ii^5\v|C 7.3 Mirror >N?2"" 7.4 Prisms @mBX~ ?=Z3 7.5 Review and Summary TcGoSj<Z 8. Basic Optical Instruments C^z\([k0er 8.1 Introduction 7oR:1DXw| 8.2 Magnifier, or Loupe 1<h>B: 8.3 Eyepiece )|I5j];L 8.4 Microscope =SAU4xjo 8.5 Telescope }=2; 8.6 Binoculars BnM4T~reOF 8.7 Riflescope ne>g?"Pex{ 8.8 Surveying and Optical Tooling Instruments ~Wp Gf, 8.9 Periscope, Borescope, and Endoscope ,\aUq|~ 8.10 Review and Summary Jz! Z2c 9. Optical Materials and Coatings Fbp{,V@F2 9.1 Introduction 5c;h& 9.2 Optical Glass 7E @+ 9.3 Low-Expansion Materials 8p!*?RRme[ 9.4 Surface Losses and Antireflection Coatings 3~qR 9.5 Materials for Infrared Systems 4W#E`9
6u 9.6 Optical Plastics 8v)_6p(<x8 9.7 Review and Summary /S\cU`ZVe 10. Visual Optical System G8I Y# 10.1 Introduction nCKbgM'" 10.2 Structure of the Eye {gKN d*[* 10.3 Resolution of the Eye TFepxF 10.4 Visual Instrument Design Considerations <q,+ON\' 10.5 Visual Instrument Focus yxBUj*3 10.6 Visual Instrument Detailed Lens Design )=Q)BN[ 10.7 Review and Summary (Bo bB]~a 11. Lens Design and Evaluation >bUj*#< 11.1 Introduction z\/53Sy< 11.2 Lens Design Process &l | |