"Modern Lens Design" 2nd Edition by Warren J. Smith |KVVPXtq%C
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Contents of Modern Lens Design 2nd Edition f( �Dtv���
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1 Introduction e�c/>LJDX7
1.1 Lens Design Books J�Vx�ja<43
1.2 Reference Material �Gs,e8�ri!
1.3 Specifications f/�s"��2r�
1.4 Lens Design k"C�'8<T)'
1.5 Lens Design Program Features \�R�b:�t�}
1.6 About This Book NqGSoOjIO2
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2 Automatic Lens Design Od��^Sr4C�
2.2 The Merit Function �Z`86YYGK�
2.3 Local Minima y. 1��F@w|
2.4 The Landscape Lens f�ms(_Q:R?
2.5 Types of Merit Function �w�OCAGE�g
2.6 Stagnation �,��I� ][�
2.7 Generalized Simulated Annealing =FI[�/"476
2.8 Considerations about Variables for Optimization �!d�U$1:7
2.9 How to Increase the Speed or Field of a System and Avoid Ray Failure Problems �+S�[3HX7H
2.10 Test Plate Fits, Melt Fits, Thickness Fits and Reverse Aberration Fits 7�!h>
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2.11 Spectral Weighting 4T�;��<`{]
2.12 How to Get Started 3Pgokj
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3 Improving a Design d�0C� _:_�
3.1 Lens Design Tip Sheet: Standard Improvement Techniques b�ar=�^V)�
3.2 Glass Changes ( Index and V Values ) )B)f`(SA"<
3.3 Splitting Elements c8�Ud<M� .
3.4 Separating a Cemented Doublet ^sFO�[cYo
3.5 Compounding an Element �i�p�l,�{
3.6 Vignetting and Its Uses Gi��#-�TP\
3.7 Eliminating a Weak Element; the Concentric Problem V0�#�Oc�q,
3.8 Balancing Aberrations �k<Cb�I�
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3.9 The Symmetrical Principle Hb::;[bm:
3.10 Aspheric Surfaces Dte��5g),R
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4 Evaluation: How Good is This Design
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4.1 The Uses of a Preliminary Evaluation yP�>025o't
4.2 OPD versus Measures of Performance �8�D,��*_p
4.3 Geometric Blur Spot Size versus Certain Aberrations �,|}mo+rb-
4.4 Interpreting MTF - The Modulation Transfer Function �{7c'�%e�
4.5 Fabrication Considerations ^Y+Lf]zz*
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5 Lens Design Data �#��.[eZ[
5.1 About the Sample Lens Designs ?�@;)�2B|q
5.2 Lens Prescriptions, Drawings, and Aberration Plots g>;@(:e^/�
5.3 Estimating the Potential of a Redesign ���P�9f`<o
5.4 Scaling a Desing, Its Aberrations, and Its MTF B>m*!�n:�l
5.5 Notes on the Interpretation of Ray Intercept Plots �O�G$v"Yf~
5.6 Various Evaluation Plot u%+k\/Scp.
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6 Telescope Objective %�D8.uG�sh
6.1 The Thin Airspaced Doublet ^3S&LC
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6.2 Merit Function for a Telescope Objective �QIevp��s*
6.3 The Design of an f/7 Cemented Doublet Telescope Objective .|5$yGEF_+
6.4 Spherochromatism �ed}#S~4q
6.5 Zonal Spherical Aberration ,7c Rd�}1Y
6.6 Induced Aberrations Qub�u;[0+a
6.7 Three-Element Objectives Cl9�nmyf
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6.8 Secondary Spectrum (Apochromatic Systems) n*A1x��8tn
6.9 The Design of an f/7 Apochromatic Triplet K�R%WBvv��
6.10 The Diffractive Surface in Lens Design V+y�"L>�K�
6.11 A Final Note �~6@`;s`[Y
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7 Eyepieces and Magnifiers q~[��s�KAh
7.1 Eyepieces d[J_iD{ �&
7.2 A Pair of Magnifier Designs n�=C�"�pH#
7.3 The Simple, Classical Eyepieces �{�?��IbbT
7.4 Design Story of an Eyepiece for a 6*30 Binocular �f$:SacF
7.5 Four-Element Eyepieces �A;RV~!xx�
7.6 Five-Element Eyepieces �\y�F�UQq:
7.7 Very High Index Eyepiece/Magnifier �v�r�'cR2�
7.8 Six- and Seven-Element Eyepieces A�)�>#n�)�
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8 Cooke Triplet Anastigmats �1^�X)vck�
8.1 Airspaced Triplet Anastigmats )"6-7ii7(f
8.2 Glass Choice '�!8-/nlv1
8.3 Vertex Length and Residual Aberrations KNd<8�{'�.
8.4 Other Design Considerations �n�+hL/aQ+
8.5 A Plastic, Aspheric Triplet Camera Lens A$�5���M.�
8.6 Camera Lens Anastigmatism Design “from Scrach” – The Cooke Triplet ��Q�
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8.7 Possible Improvement to Our “Basic” Triplet 2~�?E��'�
8.7 The Rear Earth (Lanthanum) Glasses �){�"?@1vP
8.9 Aspherizing the Surfaces OQB7C0+ &�
8.10 Increasing the Element Thickness W_���JO�~P
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9 Split Triplets !�e~[U��-
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10 The Tessar, Heliar, and Other Compounded Triplets �q��rw��
10.1 The Classic Tessar PBCGC^0�{�
10.2 The Heliar/Pentac 6{�HCF-cQd
10.3 The Portrait Lens and the Enlarger Lens _3yG<'f[Y
10.4 Other Compounded Triplets W�E�if&<�Y
10.5 Camera Lens Anastigmat Design “from Scratch” – The Tessar and Heliar &
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11 Double-Meniscus Anastigmats tMX$8�W0
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11.1 Meniscus Components �y"q�>}��5
11.2 The Hypergon, Totogon, and Metrogon vBl:�&99[/
11.3 A Two Element Aspheric Thick Meniscus Camera Lens 60u_,@r��V
11.4 Protar, Dagor, and Convertible Lenses a~$Y;C_�#<
11.5 The Split Dagor Lm2)�3;�ei
11.6 The Dogmar 5HV�+7�zU5
11.7 Camera Lens Anastigmat Design “from Scratch” – The Dogmar Lens ~<n.5q�%Z
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12 The Biotar or Double-Gauss Lens �e@ZM�&i�R
12.1 The Basic Six-Element Version �mA+:)?e5~
12.2 28 Things You Should Know about the Double-Gauss/Biotar Lens �u�d$�-�A�
12.3 The Seven-Element Biotar - Split-Rear Singlet �3>@VPMi
12.4 The Seven-Element Biotar - Broken Contact Front Doublet G#GZt\)�F�
12.5 The Seven-Element Biotar - One Compounded Outer Element *��/n�8T]s
12.6 The Eight-Element Biotar @��C���mKF
12.7 A “Doubled Double-Gauss” Relay u�/�u(�Z�&
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13 Telephoto Lenses d9M���[�]{
13.1 The Basic Telephoto F. SB_S<'�
13.2 Close-up or Macro Lenses LsuO�mB|�^
13.3 Telephoto Designs �~EPV����u
13.4 Design of a 200-mm f/4 Telephoto for a 35-mm Camera from Scratch �yQ�N{)r�v
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14 Reversed Telescope (Retrofocus and Fish-Eye) Lenses CC`_e^~y=F
14.1 The Reverse Telephoto Principle �Ct �w�<-'
14.2 The Basic Retrofocus Lens ,�dCE�y+��
14.3 Fish-Eye, or Extreme Wide-Angle Reverse Telephoto, Lenses }�Ze�*/�p-
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15 Wide Angle Lenses with Negative Outer Lenses l\*9rs:!�
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16 The Petzval Lens; Head-up Display Lenses o6k#neB>=.
16.1 The Petzval Portrait Lens /D3{Ej�UE=
16.2 The Petzval Projection Lens VIP7j(#t_g
16.3 The Petzval with a Field Flattener /�q�]rA��
16.4 Very Height Speed Petzval Lenses ��2H)4}�5H
16.5 Head-up Display (HUD) Lenses, Biocular Lenses, and Head/Helmet Mounted Display(HMD) Systems �$ItjVc@U�
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17 Microscope Objectives �Z_\p8@3aH
17.1 General Considerations a,c!#i�yl3
17.2 Classic Objective Design Forms; The Aplanatic Front +y?Il�kk;j
17.3 Flat-Field Objectives �r[��a7">n
17.4 Reflecting Objectives
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17.5 The Microscope Objective Designs TQF+aP8[L�
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18 Mirror and Catadioptric Systems
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18.1 The Good and Bad Points of Mirrors '�j6��O2=1
18.2 The Classic Two-Mirror Systems tTLg;�YjN�
18.3 Catadioptric Systems P9
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18.4 Aspheric Correctors and Schmidt Systems \�xkK�gI�/
18.5 Confocal Paraboloids bx8](��cT_
18.6 Unobscured Systems v�t|R�)[,
18.7 Design of a Schmidt-Cassegrain “from Scratch” qq�| 5[I.?
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19 Infrared and Ultraviolet Systems ,RV
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19.1 Infrared Optics }�aVZ\P�Dg
19.2 IR Objective Lenses ,_�Z(!|
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19.3 IR Telescope 5QMra5N�k�
19.4 Laser Beam Expanders �s{Z)�<n03
19,5 Ultraviolet Systems �5 8��bW��
19.6 Microlithographic Lenses (90/,@6�6l
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20 Zoom Lenses ����E�O&Q
20.1 Zoom Lenses <W"W13*j!�
20.2 Zoom Lenses for Point and Shoot Cameras l�i�r=0oq<
20.3 A 20X Video Zoom Lens :�:|~tLFu
20.4 A Zoom Scanner Lens �z�~
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20.5 A Possible Zoom Lens Design Procedure
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21 Projection TV Lenses and Macro Lenses 'dLw8&T+W�
21.1 Projection TV Lenses ;�.A}c��)b
21.2 Macro Lenses s�<9�g3G�h
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22 Scanner/ , Laser Disk and Collimator Lenses
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22.1 Monochromatic Systems k {��*QU�(
22.2 Scanner Lenses $�F2Uv�\7=
22.3 Laser Disk, Focusing, and Collimator Lenses �=:-�fK-d�
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23 Tolerance Budgeting o�|ky�kxcq
23.1 The Tolerance Budget ,@�`?I6nKy
23.2 Additive Tolerances F�Z�r/trP~
23.3 Establishing the Tolerance Budget �k6(7G@@}
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24 Formulary D0D=;k� ��
24.1 Sign Conventions, Symbols, and Definitions h:�
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24.2 The Cardinal Points ��f��!�9i6
24.3 Image Equations b�(�Nv`'O�
24.4 Paraxial Ray Tracing (Surface by Surface) w&�p�+mJL.
24.5 Invariants }aZ�u��Ce_
24.6 Paraxial Ray Tracing (Component by Component) q�s5>`sk�X
24.7 Two-Componenet Relationships 7���*!7EBb
24.8 Third-Order Aberrations – Surface Contributions 'NEl`v�*<P
24.9 Third-Order Aberrations – Thin Lens Contributions; The G Sum Eqs B>,e�HXW��
24.10 Stop Shift Equations ~||0�lj.D�
24.11 Third-Order Aberrations – Contributions from Aspheric Surfaces �-50DGA,K6
24.12 Conversion of Aberrations to Wavefront Deformation (OPD) �m��pt��Fd
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Glossary x< A-Ws{^V
Reference 1��/.���BP
Index
