"Modern Lens Design" 2nd Edition by Warren J. Smith d�tJ?J<�m}
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Contents of Modern Lens Design 2nd Edition )�A,M��T�i
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1 Introduction |��
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1.1 Lens Design Books :�W^
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1.2 Reference Material qE�E�
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1.3 Specifications 6,| !zaeS
1.4 Lens Design sZ�_�+6+ :
1.5 Lens Design Program Features ��[��8[g�_
1.6 About This Book ;�~F&b:CyG
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2 Automatic Lens Design )ui]vS�:�>
2.2 The Merit Function r761v�tC#
2.3 Local Minima �oUoDj'JN{
2.4 The Landscape Lens s>il�xLSX]
2.5 Types of Merit Function JZB�7?@h�%
2.6 Stagnation |�<gYzb��q
2.7 Generalized Simulated Annealing qi!+�Ceo}
2.8 Considerations about Variables for Optimization �#L
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2.9 How to Increase the Speed or Field of a System and Avoid Ray Failure Problems WTbq)D(&[_
2.10 Test Plate Fits, Melt Fits, Thickness Fits and Reverse Aberration Fits �<<4U��:�
2.11 Spectral Weighting 8(]*J8/�wt
2.12 How to Get Started 22$M6Qof]n
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3 Improving a Design $9bLD
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3.1 Lens Design Tip Sheet: Standard Improvement Techniques ��fgdqp�8~
3.2 Glass Changes ( Index and V Values ) �GUSEbIz):
3.3 Splitting Elements vq=n�G]cE)
3.4 Separating a Cemented Doublet /6��QwV->
3.5 Compounding an Element ��GKIO@!@[
3.6 Vignetting and Its Uses m�7!M�stu�
3.7 Eliminating a Weak Element; the Concentric Problem 3RJsH��:u8
3.8 Balancing Aberrations vnc-��W3N
3.9 The Symmetrical Principle ^Y,�nv,gYn
3.10 Aspheric Surfaces 7J�i|x{`�`
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4 Evaluation: How Good is This Design �0�5��hjC
4.1 The Uses of a Preliminary Evaluation t>Lq�
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4.2 OPD versus Measures of Performance (ZS�d7q�H"
4.3 Geometric Blur Spot Size versus Certain Aberrations ip�8%9fG\>
4.4 Interpreting MTF - The Modulation Transfer Function �bf@H(gCW=
4.5 Fabrication Considerations t��\S=u �y
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5 Lens Design Data K,j'!VQA4g
5.1 About the Sample Lens Designs �$\O��c]%�
5.2 Lens Prescriptions, Drawings, and Aberration Plots v(=?@�tF}E
5.3 Estimating the Potential of a Redesign )xm[m��vt�
5.4 Scaling a Desing, Its Aberrations, and Its MTF JCFiK�t9�n
5.5 Notes on the Interpretation of Ray Intercept Plots <<w�*�_G�M
5.6 Various Evaluation Plot 5v5)�vv.kd
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6 Telescope Objective z*�k(` '��
6.1 The Thin Airspaced Doublet ?&U��g"$v
6.2 Merit Function for a Telescope Objective v9�*�31J�x
6.3 The Design of an f/7 Cemented Doublet Telescope Objective Q-<h)WTA��
6.4 Spherochromatism lV"�.-:u�_
6.5 Zonal Spherical Aberration =hY�9�lxW�
6.6 Induced Aberrations #�K&XY6cTj
6.7 Three-Element Objectives �'���9u(9S
6.8 Secondary Spectrum (Apochromatic Systems) �0�#��Ae�<
6.9 The Design of an f/7 Apochromatic Triplet �\~X:ffb =
6.10 The Diffractive Surface in Lens Design �FdGnNDl*e
6.11 A Final Note 6U9F��vPJ�
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7 Eyepieces and Magnifiers A����hk��q
7.1 Eyepieces \Vb�|bw'e(
7.2 A Pair of Magnifier Designs 9x`1V�R
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7.3 The Simple, Classical Eyepieces �k@�Qd:I;;
7.4 Design Story of an Eyepiece for a 6*30 Binocular L9{y�1�'')
7.5 Four-Element Eyepieces q��?�y�-s�
7.6 Five-Element Eyepieces ���;"B@QPX
7.7 Very High Index Eyepiece/Magnifier �sw�KqsN�.
7.8 Six- and Seven-Element Eyepieces mR�O@�ZY;5
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8 Cooke Triplet Anastigmats 7��0�-nAv�
8.1 Airspaced Triplet Anastigmats `l2�h�65\�
8.2 Glass Choice nD.��K*#�u
8.3 Vertex Length and Residual Aberrations i"�#pk"@�`
8.4 Other Design Considerations ^ 6b��27_=
8.5 A Plastic, Aspheric Triplet Camera Lens y*�*YFQ*sc
8.6 Camera Lens Anastigmatism Design “from Scrach” – The Cooke Triplet $+|.
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8.7 Possible Improvement to Our “Basic” Triplet �=O%'qUj`q
8.7 The Rear Earth (Lanthanum) Glasses �IF�s�h"i
8.9 Aspherizing the Surfaces W#&BU-�|2
8.10 Increasing the Element Thickness ��'��,Y`\X
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9 Split Triplets !?)a��Z |r
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10 The Tessar, Heliar, and Other Compounded Triplets �*b7evU *1
10.1 The Classic Tessar m<sC�R�Wa-
10.2 The Heliar/Pentac &�G!~@\tMg
10.3 The Portrait Lens and the Enlarger Lens �@>*r2=#14
10.4 Other Compounded Triplets ���}Q����a
10.5 Camera Lens Anastigmat Design “from Scratch” – The Tessar and Heliar /Z~5b�b�(
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11 Double-Meniscus Anastigmats �� s2`�}�~
11.1 Meniscus Components �MbxJ3�"�@
11.2 The Hypergon, Totogon, and Metrogon .B?fG)'WsF
11.3 A Two Element Aspheric Thick Meniscus Camera Lens `m}�G{�jfk
11.4 Protar, Dagor, and Convertible Lenses ��M1=eS�@
11.5 The Split Dagor �����v:"�Y
11.6 The Dogmar �''($E�/��
11.7 Camera Lens Anastigmat Design “from Scratch” – The Dogmar Lens 4k!>J�Qor
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12 The Biotar or Double-Gauss Lens ;o158H$gz;
12.1 The Basic Six-Element Version [Lcy� &+��
12.2 28 Things You Should Know about the Double-Gauss/Biotar Lens Rrrq>{���D
12.3 The Seven-Element Biotar - Split-Rear Singlet K5 �EJ#1ov
12.4 The Seven-Element Biotar - Broken Contact Front Doublet �5�/R
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12.5 The Seven-Element Biotar - One Compounded Outer Element #+H3b!��8=
12.6 The Eight-Element Biotar =om<*�\vsO
12.7 A “Doubled Double-Gauss” Relay 9�*�P-k.Bl
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13 Telephoto Lenses ~7gFd�di=i
13.1 The Basic Telephoto M��< H+$}[
13.2 Close-up or Macro Lenses f��\�FqZ?w
13.3 Telephoto Designs F$c�kW'V��
13.4 Design of a 200-mm f/4 Telephoto for a 35-mm Camera from Scratch >,.�\`.�0�
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14 Reversed Telescope (Retrofocus and Fish-Eye) Lenses )�X3
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14.1 The Reverse Telephoto Principle cd`P'G��DF
14.2 The Basic Retrofocus Lens XP[��~ �:+
14.3 Fish-Eye, or Extreme Wide-Angle Reverse Telephoto, Lenses �V/x�jI<�,
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15 Wide Angle Lenses with Negative Outer Lenses 8@� S@^C*F
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16 The Petzval Lens; Head-up Display Lenses �v��XZ
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16.1 The Petzval Portrait Lens 9rIv-&7'm
16.2 The Petzval Projection Lens #7"";"{�z|
16.3 The Petzval with a Field Flattener N/[!$B0H�@
16.4 Very Height Speed Petzval Lenses �zDB�m^� s
16.5 Head-up Display (HUD) Lenses, Biocular Lenses, and Head/Helmet Mounted Display(HMD) Systems ��g�H�.$B'
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17 Microscope Objectives Z�ENblh8fs
17.1 General Considerations ]�z]=?;ty%
17.2 Classic Objective Design Forms; The Aplanatic Front Jpy~�5k��S
17.3 Flat-Field Objectives l
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17.4 Reflecting Objectives H�IU�P
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17.5 The Microscope Objective Designs �:QF`Orb!^
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18 Mirror and Catadioptric Systems vs>Pd |p;�
18.1 The Good and Bad Points of Mirrors s��`pdy�$
18.2 The Classic Two-Mirror Systems i�6S["\h>
18.3 Catadioptric Systems � N!�Xn)J�
18.4 Aspheric Correctors and Schmidt Systems �F$'p��o#
18.5 Confocal Paraboloids �l3y}nh+ 8
18.6 Unobscured Systems >|0�I\�{�C
18.7 Design of a Schmidt-Cassegrain “from Scratch” *\_>=sS x;
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19 Infrared and Ultraviolet Systems �>QPCYo�<E
19.1 Infrared Optics BjHp3-�A'�
19.2 IR Objective Lenses A"0Yn(awWu
19.3 IR Telescope 3T>6Q#W5eO
19.4 Laser Beam Expanders ^F-��2t�c�
19,5 Ultraviolet Systems [!Djs![��O
19.6 Microlithographic Lenses e(FT��4KD~
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20 Zoom Lenses �ERIF��#EY
20.1 Zoom Lenses <dAxB$16sT
20.2 Zoom Lenses for Point and Shoot Cameras ^5)=)�xV�F
20.3 A 20X Video Zoom Lens �"Bz#5kqnl
20.4 A Zoom Scanner Lens a/3�yn9`sQ
20.5 A Possible Zoom Lens Design Procedure 4;(W0RQ��a
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21 Projection TV Lenses and Macro Lenses C��>F5=&��
21.1 Projection TV Lenses �6�G(K8Q{>
21.2 Macro Lenses F6\4�[��B�
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22 Scanner/ , Laser Disk and Collimator Lenses ^E�)8Sb9t�
22.1 Monochromatic Systems ` +�)B�l%*
22.2 Scanner Lenses ~@�e��=+�Z
22.3 Laser Disk, Focusing, and Collimator Lenses -=�n!k^?lK
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23 Tolerance Budgeting >��"z�`))9
23.1 The Tolerance Budget "`mG_qHI�[
23.2 Additive Tolerances y��TN�HM_P
23.3 Establishing the Tolerance Budget wod�(P7�3?
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24 Formulary �b8[
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24.1 Sign Conventions, Symbols, and Definitions Pa=xc>m�^�
24.2 The Cardinal Points N�/1xc1$SB
24.3 Image Equations /(�9.Fqe(�
24.4 Paraxial Ray Tracing (Surface by Surface) XsSDz�}d�g
24.5 Invariants `Gx
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24.6 Paraxial Ray Tracing (Component by Component) s7\�Ee-x)s
24.7 Two-Componenet Relationships -�Vs;4-B{9
24.8 Third-Order Aberrations – Surface Contributions R*lq.�7�
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24.9 Third-Order Aberrations – Thin Lens Contributions; The G Sum Eqs �R:�+?<�U&
24.10 Stop Shift Equations |x�=(}�g��
24.11 Third-Order Aberrations – Contributions from Aspheric Surfaces oW>�e.}�d!
24.12 Conversion of Aberrations to Wavefront Deformation (OPD) 1\AcceJ|(w
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Glossary jF��(�R;?,
Reference �'5A&c(���
Index
