| 청구기호 |
QC381 .K54 2004e |
| 형태사항 |
1 online resource (xxi, 227 p. : ill.) : digital file.
|
| 총서명 |
SPIE Press monograph ; PM134
|
| 언어 |
English |
| 일반주기 |
"SPIE digital library."
|
| 서지주기 |
Includes bibliographical references and index.
|
| 내용 |
Chapter 1. Optimization -- Special characteristics of lens design as an optimization problem -- The nature of the merit function -- The Strehl ratio -- MTF optimization -- General comments -- Comparison with the optical thin-film design problem -- Nonlinearity of the aberrations -- Changes needed to reduce high-order aberrations -- A method of visualizing the problem of optimization in lens design -- Theory of damped least squares (Levenberg-Marquardt) -- Some details of damped least squares as used in lens design -- Paraxial (first-order) properties -- Seidel and Buchdahl coefficients -- Transverse ray or wavefront aberrations -- Aberration balancing and choice of weighting factors -- Damping -- Control of physical constraints -- Control of glass boundary conditions -- Solves -- Lagrange multipliers -- Some reasons for the success of the DLS method -- Experiments with optimization programs -- Effect of changing the damping factor -- Effect of scaling the parameter changes -- An optimization example -- References.
Chapter 2. Buchdahl aberrations -- Third-order coefficients -- Fifth-order coefficients -- Comparison with H.H. Hopkins notation -- Examples -- Double Gauss -- Shafer lens with zero third- and fifth-order aberrations -- References -- Chapter 3. Synthesis of new lens designs -- Choice of a starting point -- Modification of an existing design -- Purchase of a competing lens -- Analytic solutions -- Nonanalytic synthesis of new design forms -- Examples -- A unit magnification telecentric doublet pair -- A simple zoom lens -- The use of catalog components -- Singlets -- Doublets and triplets -- Meniscus singlets -- Field flatteners -- Cemented triplets -- References -- Chapter 4. Lenses for 35-mm cameras -- The triplet -- The tessar -- The double-Gauss (planar-type) -- The Sonnar -- Wide-angle lenses for rangefinder cameras (Zeiss Biogon) -- Wide-angle lens for rangefinder camera (Schneider Super-Angulon) -- Wide-angle lenses for SLR cameras -- Telephoto lens -- Long-focus telephoto lens -- Lens for compact point-and-shoot camera -- Single lens for disposable cameras -- References.
Chapter 5. Secondary spectrum and apochromats -- Apochromatic doublets -- Apochromatic triplets -- Petzval lenses -- Double-Gauss lenses -- Telephoto lenses -- Zoom lenses -- Microscope objectives -- Secondary spectrum correction with normal glasses -- Liquids -- Diffractive optics -- McCarthy-Wynne principle -- Schupmann principle -- Transverse secondary spectrum -- References -- Chapter 6. Lenses for laser applications -- Gaussian beams -- Laser beam expanders -- Two-lens beam expanders -- Three-lens beam expanders -- F-Theta lenses -- Lenses for optical disks -- Laser diode collimators -- References -- Chapter 7. Microscope objectives -- Classical microscope objectives -- Flat-field microscope objectives -- Oil-immersion objectives -- References -- Chapter 8. Microlithographic Projection Optics -- Unit-magnification zero-power monocentric systems -- Dyson 1x relay -- Offner 1x relay -- Wynne-Dyson 1x relay -- Wynne-Offner 1x relay -- Reduction lenses -- Catadioptric reduction systems -- Catoptric reduction systems -- References.
Chapter 9. Zoom lenses -- General principles -- Control of chromatic aberration -- Field curvature -- Minimization of movements -- Two-component zooms -- Minus-plus plastic disposable zoom -- Plus-minus plastic disposable zoom -- A typical minus-plus zoom -- A typical plus-minus zoom -- Three-component zooms -- Four-component zooms -- Zoom relays -- Zoom telescopes -- Zoom modules -- References -- Chapter 10. Decentered and asymmetric systems -- General properties of decentered systems -- Coordinate systems -- Interpretation of results -- New-axis surface -- Toroids -- Offset surfaces (or off-axis surfaces) -- Convention for mirrors -- Kutter system -- Single parabolic mirror -- Alpha rotations -- Beta rotations -- Alpha and beta rotations -- Scanning systems -- The active side of a surface -- X-ray telescopes -- WOLTER2 example -- WOLTER1 example -- Chapter 11. Design for manufacturability -- Tolerancing -- Simplicity of design -- Air spaces -- Glass components -- Glass choice -- Mirror surfaces -- Redesign for actual melt data -- Use of existing tools and test plates -- Selective assembly and adjustment after assembly -- General points -- References -- Index.
|
| 주제 |
Geometrical optics.
|
| 보유판 및 특별호 저록 |
(Original) 0819452173 , 2003065920
|
| ISBN |
9780819478313 (electronic)
, 0819452173 (print)
, 9780819452177 (print)
|
| 기타 표준번호 |
10.1117/3.540692 |
| QR CODE |
|
