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Smith W.J. — Modern Lens Design: A Resource Manual
Smith W.J. — Modern Lens Design: A Resource Manual



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Название: Modern Lens Design: A Resource Manual

Автор: Smith W.J.

Аннотация:

Published in 1964 and long out of print, copies of Cox's A System of Optical Design are covered by experienced lens designers simply because a small section of the book features lens design examples. Such examples are notoriously difficult to find and the hundred-odd pages of Cox's book that include them are widely photocopied and constantly referred to by designers in the know. Finally, lens designers have a better place to turn. The most complete and authoritative work of its kind ever published, Modern Lens Design includes over 400 pages of proven lens design examples for both commercial and military applications. A perfect complement to Smith's best-selling Modern Optical Engineering, it features designs of everything from camera lenses to laser collimators


Язык: en

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1992

Количество страниц: 485

Добавлена в каталог: 13.11.2012

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Minima, local      6
Minimum blur spot      35
Mirror microscope objective      262
Mirror systems      271—301
Mirror systems, third-order aberrations      271
Modulation transfer function      see "MTF"
Molded lens      412
Monocentric system      284 299
Monochromatic system      411
MTF      45 48
MTF vs. defocus      45
MTF vs. spherical aberration      46
MTF, geometrical approximation      46
MTF, scaling      57
NA lenses listed by      453—458 see
Nagler eyepiece      115
Negative meniscus elements      355
Neutral zone      292
New achromat      30 197 340
Newton’s rings      432
Nodal points      443
Normal distribution      437
Numerical aperture, microscope      257
Objective, telescope      63—86
Oblique spherical aberration      13 34 55 318
Obscuration vs.contrast, MTF      271
Off-axis paraboloid      296
Oil-immersion microscope objective      236 259 260 263
OPD equation      58
OPD vs. aberrations      451
OPD vs. aberrations, fringes of irregularity      433
OPD vs. performance      43—46
OPD vs. ray intercept plot      61
OPD vs. transverse spherical      46
Optical path difference      see "OPD"
OPTICS TOOLBOX      49
Optimization      5
Optimization variables      10
Optimum, global      5
Optimum, local      4—8
Orthometar lens      190
Orthoscopic eyepiece      92 98
Outer negative meniscus elements      355
Paraboloid eyepiece      101 107
Paraboloids, confocal      295 296
Parallax      236
Paraxial ray tracing      444 445
Partial dispersion      72
Partial dispersion vs. V-value plot      74
Peak to valley OPD vs. rms OPD      44 451
Pentac lens      210
Perfect lens MTF      45
Performance criterion, MTF      47
Petzval curvature      22 26 123 127 411 447—451
Petzval curvature, eyepiece      88
Petzval curvature, mirrors      271
Petzval field curvature correction      224 see
Petzval lens      221—238
Petzval lens, IR      394
Petzval portrait lens      221 222
Petzval projection lens      221 223—236 258
Petzval radius      51 124
Piazzi — Smyth Held flattener      224
Plasmat lens      190
Plastic aspheric elements      365 412
Ploessl eyepiece      92 102—105
Polynomial, aberration      54 58
Portrait lens, Petzval      221 222
Potassium iodide      318
Potential, estimation      54
Power      442
Power series aberration equation      54 58
Precision melt sheet      17
Prescription data      50
Primary aberrations      55
Principal points      443
probability distribution      435
Projection lens      128 148 239 318
Projection lens, Petzval      221 223—236 258
Projection TV lens      365
Protar lens      123 185 188
Pupil aberration      88 115 150 161 162
Pupil, exit      87
Quality, surface      433
R-Biotar lens      236
RADIUS      442
Radius difference, fringes      432
Radius tolerance      433
Ramsden eyepiece      92
Random search      10
Ratio, Strehl      43 452
Ratio, telephoto      169
Ray failure, TIR, surface missed, prevention      14 15
Ray intercept plots      52 60
Ray intercept plots, interpretation      58—62
Ray tracing equations, component      445
Ray tracing equations, surface      444
Rayleigh quarter-wave limit      44
Rays, additional      52 444
references      1
Reflecting microscope objective      262
Reflecting Schmidt system      296
Requirements, system      21
Resolution limit      47
Reticle      115
Retrofocus lens      147—167
Retrofocus, microscope      261
Reverse telephoto lens      147—167
Reverse telephoto magnifier      89
Reverse telephoto, IR      394
Reverse telephoto, microscope      261
Rifle scope eyepiece      101
Rings, Newton’s      432
Ritchey — Chretien objective      274 292
Rms OPD vs.peak to valley OPD      44 451
Rms spot size      4
RSS rule      437
Rudolph, Paul      197
Sagittal heights, aspheric surface      41
Sagittal oblique spherical      319
Sample lenses, explained      49
Scaling a design      57
Scaling aberrations      57
Scaling MTF      57
Scanner lens      411—419
Scanner lens, zoom      379
Scanner, telescope front      406
Schmidt system      41 292
Schmidt — Cassegrain      292
Schmidt, reflecting      296
Schott Glass Technologies      11 49 74
Schwarzschild microscope objective      262
Schwarzschild objective      272 284
Scidmore eyepiece      114 116—118
Search, random      10
Secondary aberrations      55
Secondary spectrum      72 221 340 394 450
Secondary spectrum, lateral color      161
Secondary spectrum, reversed      146
Seidel aberrations      55 271 447—451
Seidel coefficients vs.aberrations      448
Semiapochromatic objective      263
Separable microscope objective      258
Separating a cemented doublet      30
Seventh-order spherical      32 61
Seventh-order terms      56
Sign conventions      441
Slide (35 mm) projection lens      128 239
Slide viewer      89
Slow convergence      9
Solid cat (adioptric)      292
Solves, angle, height      4
Sonnar lens      123 239
Spectral weighting      18
Speed, increasing      14
Spencer, Gordon      5
Spherical aberration adjustment      56
Spherical aberration balancing      35
Spherical aberration blur spot      47
Spherical aberration of pupil      88 150
Spherical aberration seventh-order      32 210 224
Spherical aberration third-order      447—451
Spherical aberration vs. index      26
Spherical aberration vs. MTF      46
Spherical aberration vs. no of elements      28
Spherical aberration zonal      210 221
Spherochromatism      221 425
Spherochromatism, balance      37 292
Spherochromatism, vs. doublet airspace      75
Split crown telescope objectives      79
Split triplet anastigmats      239—255
Split-crown Cooke triplet      8 28
Split-front crown triplet lens      239
Split-rear crown triplet lens      239
Split-rear-singlet Biotar      319
Splitting elements      27 228
Spot size, rms      4
Stagnation      9
Starting a design      19
Steinheil lens      64
Stop shift equations      450
Strehl ratio      43 452
Superachromat      173
Surface contributions, third-order      447
Surface equation, aspheric      51
Surface irregularity      432
Surface quality      433
symbols      441
Symmetrical anastigmat      183
Symmetrical eyepiece      92 102—105
Symmetrical principle      39
Symmetry, eyepiece      87
system requirements      21
Telecentric lens      425
Telecentric pupil      412
Telephoto lens      169—182
Telephoto ratio      169
Telescope objectives      63—86
Telescope objectives, IR      394
Telescope, IR      406
Tertiary aberrations      56
Tessar lens      30 190 197—209
Test plate fit      16—18 439
Test plate/glass      432
Thick elements      14
Thick meniscus      183
Thick meniscus, eyepiece      88
Thickness as a variable      13
Thickness fit      16—18 439
Thickness tolerance      433
Thin aplanatic lenses, astigmatism      63
Thin lens third-order aberrations      449
Third ray equations      444
Third-order aberrations, aspherics      451
Third-order aberrations, mirror      271
Third-order aberrations, surface contribution      447
Third-order aberrations, thin lens      449
Third-order spherical      61
Third-order terms      55
Three-element telescope objectives      79
Three-mirror system      296
TIR, ray failure      15
Tolerance budget      431—440
Tolerance budget, establishing      438
Tolerance size limits      439
Tolerances, additive      434—438
Tolerances, typical      433
Topogon lens      185
Toric surface      433
Transverse spherical vs. OPD      46
Transverse third-order aberrations      56
Transverse vs. longitudinal aberrations      448
Triplet, apochromatic      74
Triplet, Cooke      123—146
Triplet, IR      394
Tronnier, A.      319
Tube length, microscope, adjustment      257
TV projection lens      365—368
Two-component equations      446
Typical tolerances      433
Ultraviolet Biotar      319
Ultraviolet lens      425
Ultraviolet microscope objective      262 284
Unobscured aperture      296
Variable defocus      12
Variable glass      10
Variable materials      10
Variable thickness      13
Variables for optimization      10
Veil, glass      11
Vertex length, control by glass choice      125—127
Vertex length, vs. residual aberrations      125—127
Video disk lens      411—425
Vignetting      33
Von Hofe eyepiece      101
W.A. Express lens      190
Warren J. Smith Lens Library      49
Wave number, weighting      19
Wavefront aberration equation      58
Wavefront deformation vs. aberrations      451
Wavefront deformation vs. performance      44
Wavelength, weighting      18
Weak element, elimination      34
Weighting, spectral      18
wide-angle lenses      355—363
Wild eyepiece      113
Working distance, Amici objective      261
Worst-case tolerancing      434
Zonal spherical aberration      33 35 210 221
Zonal spherical aberration vs. doublet airspace      75
Zonal spherical aberration vs. vertex length      125
Zonal spherical aberration vs. working distance      261
zoom lenses      373—392
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