這是好書一本… >B��/&V|E�
程度中等 v7FRTrqjj
雖然用oslo為例,但是並不會影響閱讀 ' P`p.5nH�
值得下載…雖然是scan版的 6'Y�n|��A
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1. Introduction �$�;uW�j�|
2. Historical Review S~Iw?SK�3
2.1 Definition of Optical Engineering S�"�T�Msi�
2.2 Ancient History R�yO�T[�J�
2.3 Medieval Optics &�r�ztC]jF
2.4 From 1600 to the 1900s }�&T<w�m�!
2.5 Speed of Light (1AA;)`Kp�
2.6 Modern Optical Engineering mERrcY�Y{�
2.7 Case History: Optics in the United States ix7
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2.8 Recent Incident: the Hubble Telescope w<~<(5mM5;
2.9 Review and Summary ���!N8)C@=
3. Basic Concepts of Light {IP�n\Bka�
3.1 Light: an Elusive Topic �&lP��Bq�w
3.2 Understanding Light 7s8<FyFsjd
3.3 Velocity, Wavelength, and Frequency �;�5�Vk01R
3.4 Wavefronts and Light Rays ��B_"OA3d_
3.5 Light Sources 4n�II�/cPG
3.6 Behavior of Light Rays X�!�rQ�@F3
3.7 Refraction LlA`Q�Le�
3.8 Refraction by a Lens #Em�ff�VtY
3.9 Dispersion and Color sb|�3|J6�=
3.10 Diffraction of Light >!�Ap�/{�2
3.11 Review and Summary {nPkb5xbW�
4. Thin-Lens Theory R8[i�XXjku
4.1 Definition of Thin Lens o%+A<R���i
4.2 Properties of a Thin Lens hGA!1a4 c�
4.3 Aperture Stop, Entrance and Exit Pupils, and Field Stop ,/?%y��\:J
4.4 Reference Coordinate System 5�&HT$"H�:
4.5 Thin-Lens Power -�S,i��r��
4.6 Ray Trace of a Thin Lens (Object at Infinity) Ukx/jNyY�v
4.7 Ray Trace of a Thin Lens (Finite Object Distance) ���l0caP(�
4.8 Rounding Off �1�x�\V�dT
4.9 Thin-Lens Formulas ���zh^jW�u
4.10 Applications of Thin-Lens Theory we\b�����]
4.11 Mock-up of the Thin-Lens System F8S~wW=\w�
4.12 Review and Summary *{.&R9#7U'
5. Optical Design Basics y4/��>Ol]
5.1 Introduction PUE'R�r(�Q
5.2 Historical Perspective (I7&�8$Zl�
5.3 OSLO Optical Design Software Package 9��xK4!~5V
5.4 Introduction to Computer Design using OSLO mI7r�x`4H�
5.5 Laser Transmitting System Fp5NRM�*-!
5.6 Instrument Design and Analysis Q"�OV>kl�k
5.7 Magnification Analysis q: Bt�]2x�
5.8 Design of a Noncatalog System �x0u?�*5-t
5.9 Review and Summary ^A�11h��6I
6. Primary Lens Aberrations %Rd~|$@>x
6.1 Introduction K�kd�G.�c'
6.2 Spot Diagram, Radial Energy Distribution, and Modulation Transfer Function ''�(fH�$pY
6.3 Spherical Aberration �vn0cK�z@�
6.4 Coma hi� {2h0�4
6.5 Field Curvature v�L�nq�%@x
6.6 Astigmatism 6+Wr�6'kuH
6.7 Distortion ol�?z<53X]
6.8 Axial Color �:�7$\��X[
6.9 Lateral Color .#=�j
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6.10 Aberration Curves `z-H]���fU
6.11 Point-Spread Function Analysis �t<!+b@l�5
6.12 Review and Summary u=@h`�5-fp
7. Optical Components [GR]!\!�%~
7.1 Introduction jh 7p62�R�
7.2 Lens Ad]<e?oN�=
7.3 Mirror \�3�H<z@�;
7.4 Prisms y wW-p���.
7.5 Review and Summary 3��x"@**(Q
8. Basic Optical Instruments d�i3 B=A>3
8.1 Introduction r@*=|0(OrK
8.2 Magnifier, or Loupe �)�.0V%}�>
8.3 Eyepiece tC2 �)j7@
8.4 Microscope �!j!Z%�]7�
8.5 Telescope ;[�{:'�^n�
8.6 Binoculars g.[+�yzuE6
8.7 Riflescope Y<p zy�8�z
8.8 Surveying and Optical Tooling Instruments �-��1jjB1�
8.9 Periscope, Borescope, and Endoscope �|8�&-66pX
8.10 Review and Summary T�!u'V'Ei2
9. Optical Materials and Coatings �CRZi;7`*1
9.1 Introduction 2
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9.2 Optical Glass C��rnB{Z4L
9.3 Low-Expansion Materials CS~=Z>6EjA
9.4 Surface Losses and Antireflection Coatings �9�4T}iY.�
9.5 Materials for Infrared Systems �t�o9�9�_2
9.6 Optical Plastics K�WFy�w>*)
9.7 Review and Summary Sk8%(�JD7�
10. Visual Optical System \W�e�"�?1^
10.1 Introduction `f��QM����
10.2 Structure of the Eye 0zeUP��{MQ
10.3 Resolution of the Eye uk`T+�@�K�
10.4 Visual Instrument Design Considerations Y�Hs?�QsP
10.5 Visual Instrument Focus �GN\8�
