Ãëàâíàÿ    Ex Libris    Êíèãè    Æóðíàëû    Ñòàòüè    Ñåðèè    Êàòàëîã    Wanted    Çàãðóçêà    ÕóäËèò    Ñïðàâêà    Ïîèñê ïî èíäåêñàì    Ïîèñê    Ôîðóì   
blank
Àâòîðèçàöèÿ

       
blank
Ïîèñê ïî óêàçàòåëÿì

blank
blank
blank
Êðàñîòà
blank
Laikin M. — Lens design
Laikin M. — Lens design



Îáñóäèòå êíèãó íà íàó÷íîì ôîðóìå



Íàøëè îïå÷àòêó?
Âûäåëèòå åå ìûøêîé è íàæìèòå Ctrl+Enter


Íàçâàíèå: Lens design

Àâòîð: Laikin M.

Àííîòàöèÿ:

Explaining how to use lens optimization programs to create a wide range of lens systems, this thoroughly updated Second Edition of an incomparable reference text describes current techniques for fashioning single-element lenses, two-element achromats, air-spaced triplets, and complex wide-angle and zoom lenses — covering more than 30 types of lens design systems in all.


ßçûê: en

Ðóáðèêà: Òåõíîëîãèÿ/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Èçäàíèå: 3rd, revised and expanded

Ãîä èçäàíèÿ: 2001

Êîëè÷åñòâî ñòðàíèö: 474

Äîáàâëåíà â êàòàëîã: 11.02.2006

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
blank
Ïðåäìåòíûé óêàçàòåëü
Achromat as an extender      94—95
Achromat, doublet      45
Achromat, pseudo      53
Achromat, reduced secondary color      50
Achromat, thin lens, third order      45—56 440
Achromatic prism      see Achromatic wedge
Achromatic wedge      287—289 434
Aerial photography lenses      313—322
Afocal optical systems      157—168 218—219 346—350 355—359
Airy disc      226
Anamorphic systems, cylinder      297—301
Anamorphic systems, prism      301—303
Antireflection films      11—13
Apochromat microscope, objective      137
Apochromat microscope, telephoto      92—93
Apochromat microscope, telescope objective      52
Aspheric surfaces      6—8 189 193 197 443
Baffles      185
Barlow lens (negative achromat)      50 92
Best form lens      212 442
Bi-ocular lens      283—284
Binocular, Galilean      160 162
bounds      17
Cassegrain mirror system      181—183 224—225 350—355 449
Catadioptric lenses      139—140 181—196 224—225
Cemented surfaces      11 249
Cinegon lens      99—100
CinemaScope      297
Computer programs for lens design, commercially available      437—438
Computer programs for lens design, use      30
Condenser      305—312 442
Conic section lenses      273—274
Copy lens      172—174 401—407
Depth of field      37—38
Designs, list      9—12
Diffraction limit      36—37
Diopter, prism      287
Distortion      ix
Document scanner      233—235
Door viewer      167
Drawings, lens      27—29 445—448
Edge and center thickness      17
Elements, changing number of      15
Ellipsoidal mirror      311—312
Endoscope      241—244
Enlarging lenses      245—248
Erfie eyepiece      127
Eye pupil diameter      121
Eyepiece relay      177—178
eyepieces      121—132
Eyepieces, magnification      123
F theta      see Scan lenses)
Field angles      5
Film formats      429—430
Filters, aerial photography      313
Fish-eye lenses      see Wide angle lenses
Flange distances      433
FLIR (forward looking infrared)      213—215
Fluorite objective      137
Focusing, eyepiece      122
Focusing, periscope      206
Focusing, zoom      332 375
Fringes (accuracy/irregularity)      28
Gauss, double      75—83
Glass variation      9—11
Gradient index lenses      419—428
Heads up display (HUD)      279—285
Heads up display (HUD), specifications      279
Heliar      65—66
Hyperhemisphere bound      113
Illumination systems      305—312
In-water lenses      145—156
Index of refraction, calculations      8 453
Index of refraction, immersion oil      142
Index of refraction, polynomial fit      453
Index of refraction, Schott equation      9 145 454
Index of refraction, Sellmeier formula      9 454
Index of refraction, UV transmitting glasses      222
Index of refraction, water      147
Infrared lenses      211—220
Infrared lenses, achromat doublet      46
Infrared lenses, Cassegrain      183—184
Infrared lenses, triplet      59—61
Infrared lenses, zoom      350—355
Inverted telephoto      97—103 195
Irtran      458
Kellner eyepiece      124
Laser beam expander      157—161
Laser beam expander, focusing lenses      271—277
Laser beam expander, lines      41
Laser beam expander, optics      39
Laser beam expander, scan lens      235—236
Least squares, optimization      4
Lister-type objective      134
Lithography, optical      227—230
Mechanical properties      411—412
Melt data fitting      19—20
Merit function      2
Microfiche      327
Microscope objectives      133—143
Microscope objectives, oil immersion      141—142
Microscope objectives, reflecting      139—140 195—196
Microscope objectives, zoom      346—350 360—370
MTF      450
MTF, wavelength vs. weights      8
Narcissus      33—34
Number of elements, changing      15
Numerical aperture      170
Optics program      439—470
Optimization methods      3
Orthonormal, optimization      4
Panoramic camera      118—119
Parameters, variable      16—17
Pellicle      291
Periscope lenses      203—209
Petzval lens      71—74
Photographic      see also Aerial photography lenses
Photographic, Cassegrain      187—188
Photographic, lenses      31—32
Photographic, zoom      375 351
Plastics, 4 $\times$ Galilean      162—163
Plastics, projection lens      258—259
Plastics, video disk      274
Plossl eyepiece      127
Port, concentric dome      151—152
Port, flat plate      147—150
Power changer      163—164
Prism, achromatic      see Achromatic wedge
Profile projection      266
Projection lenses      249—263 452
Projection lenses, displaced      253
Projection lenses, LCD      260—262
Projection lenses, microprojection lenses      327—329
Projection lenses, requirements, high power      249
Projection lenses, slide      68—69
Projection lenses, variable focal length      409
Projection lenses, zoom      396
Pupil aberration      105
Pupil shift      13—14
Radiation resistant lenses      323—326
Ray pattern      4—5
Reflector, xenon arc      311—312
Refractive index      see Index of refraction
Relay systems      169—189
Retrofocus lens      see Inverted telephoto
Rifle sight      175—176 335—360
Ritchey — Chretien      197—200
Rod lenses      242
Rotary prism camera      294—295
Scan lenses (F theta)      233—239
Schmidt camera      193—194
Secondary color      34—36
Sparrows criterion      37
Spherical aberration, minimum      212 442
T number      204
Telecentric lenses      265—270
Telephoto lens      85—95
Telephoto lens, first order solution      85
Telescope objective      47—53 189—190
Tessar      67—68
Test glass fitting      17—19 462
Thermal problems      20—21
Thermal properties      435
Tilted plate      294
Tolerances      21—26
Transmittance in atmosphere      211
Transmittance in ocean water      146
Triplet lens (air spaced)      55
Triplet lens (air spaced), modifications      65—70
Triplet lens (air spaced), radiation resistant      323—325
Triplet lens (air spaced), third order solution      55—57 463
TV-type lenses      32
TV-type lenses, zoom      341 371 380
Ultrafiche      327
UV lenses      34 221—231
UV lenses, achromat doublet      46
UV lenses, reflecting objective      139—140
Variable focal length lenses      409—417
Video disk lens      271—272
Viewfinder, Albada      165
Viewfinder, Albada, eyepiece relay, camera viewfinder      177—178
Vignetting      13—14
Wedge plate      291—293
Whitworth thread      133
Wide angle lenses      see Inverted telephoto
Wide angle lenses, very wide angle      105—120
Zoom lenses cams      464—467
Zoom lenses cams, first order theory, mechanical      331—336
Zoom lenses cams, first order theory, optical      337—340
Zoom lenses cams, Mechanically compensated      387—400
Zoom lenses cams, optically compensated      387—300
Zoom lenses cams, spacings      468—470
blank
Ðåêëàìà
blank
blank
HR
@Mail.ru
       © Ýëåêòðîííàÿ áèáëèîòåêà ïîïå÷èòåëüñêîãî ñîâåòà ìåõìàòà ÌÃÓ, 2004-2024
Ýëåêòðîííàÿ áèáëèîòåêà ìåõìàòà ÌÃÓ | Valid HTML 4.01! | Valid CSS! Î ïðîåêòå