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Handbook of Optical Systems
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Table of Contents

Volume 4: Survey of Optical Instruments.
Preface.

Introduction.

36 Human Eye.

36.1 Introduction.

36.2 Optical System of the Eye.

36.3 Photometry and Adaptation.

36.4 Schematic Optical Models of the Eye.

36.5 Color Vision.

36.6 Optical Performance of the Eye.

36.7 Binocular Vision.

36.8 Eye Defects.

36.9 Correction of Eye Aberrations.

36.10 Literature.

37 Eyepieces.

37.1 Introduction.

37.2 Eyepiece Design Considerations.

37.3 Evolution of Eyepieces.

37.4 Single-lens Eyepiece (Loupe).

37.5 Two-lens Eyepieces.

37.6 Solid Eyepieces.

37.7 Orthoscopic Eyepieces.

37.8 Achromatic and Medium-field Eyepieces.

37.9 Wide-field Eyepieces.

37.10 Compensating Eyepieces.

37.11 Zoom Eyepieces.

37.12 Terrestrial Eyepiece.

37.13 Exotic Eyepieces.

37.14 Microscope Eyepieces.

37.15 Eyepiece Design Data.

37.16 Literature.

38 Elementary Systems.

38.1 Introduction.

38.2 Magnifier Lenses.

38.3 Data Disk and Pick-up Lenses.

38.4 Plastic Optics.

38.5 Objective Lenses for Focusing and Collimation.

38.6 Mangin Mirror.

38.7 Offner System.

38.8 Dyson System.

38.9 Retroreflecting Systems.

38.10 Telecentric Systems.

38.11 Beam Delivery Systems.

38.12 Literature.

39 Photographic Lenses.

39.1 Introduction.

39.2 Singlets.

39.3 Petzval Lenses.

39.4 Symmetrical Doublets.

39.5 Quasi-symmetrical Doublets.

39.6 Triplet Lenses.

39.7 Quadruplet Lenses.

39.8 Quasi-symmetrical Wide-angle Systems.

39.9 Less Symmetrical Lenses.

39.10 Wide-angle Retrofocus Lenses.

39.11 Extremely Wide-angle or Fish-eye Lenses.

39.12 Telephoto Lenses.

39.13 Special Systems.

39.14 Special Aspects of Camera Lenses.

39.14.1 Vignetting.

39.15 Literature.

40 Infrared Systems.

40.1 Introduction.

40.2 Special Aspects of Infrared Imaging.

40.3 Basic Infrared Imaging Systems.

40.4 Special Characteristics of Infrared Systems.

40.5 Advanced Infrared Imaging Systems.

40.6 Literature.

41 Zoom Systems.

41.1 Introduction.

41.2 Mechanically Compensated Zoom Systems.

41.3 Optically Compensated Zoom Systems.

41.4 Correction of Zoom Systems.

41.5 Example Systems.

41.6 Special Aspects.

41.7 Literature.

42 Microscope Optics.

42.1 Introduction.

42.2 Objective Lenses.

42.3 Microscopic Imaging System.

42.4 Illumination Optic.

42.5 Stereo Microscope.

42.6 Confocal Laser Scanning Microscopes.

42.7 Special Aspects.

42.8 Literature.

43 Telescopes.

43.1 Introduction.

43.2 Refracting Telescopes.

43.3 Reflecting Telescopes.

43.4 Single-mirror Reflecting Telescopes.

43.5 Two-mirror Reflecting Telescopes.

43.6 Three-mirror Reflection Telescopes.

43.7 Other Three- and Four-mirror Reflecting Telescopes.

43.8 Two-mirror Schiefspiegler (Oblique Reflector) Telescopes.

43.9 Three-mirror Schiefspiegler Telescopes.

43.10 Four-mirror Schiefspiegler.

43.11 Three-mirror Off-axis Anastigmats (TMA).

43.12 Two-axis Telescopes.

43.13 Catadioptric Telescopes.

43.14 Catadioptric Maksutov?Cassegrain Telescopes.

43.15 Telescopes with Field Correctors.

43.16 The Effects of Aperture Obscuration.

43.17 Telescope Design Prescriptions.

43.18 Literature.

44 Lithographic Projection Lenses.

44.1 Introduction.

44.2 Physical Optics Aspects.

44.3 Performance of Lithographic Lenses.

44.4 Evolution of Lithographic Lens Systems.

44.5 Examples of Lithographic Systems.

44.6 Literature.

45 Miscellaneous System Types.

45.1 Relay Systems.

45.2 Scan Systems.

45.3 Projection Systems.

45.4 Interferometer Lenses.

45.5 Autofocus Systems.

45.6 Spectroscopic Systems.

45.7 Literature.

Index.

About the Author

Herbert Gross studied physics at the University of Stuttgart, Germany, and joined Carl Zeiss in 1982, where has since been working in the department of optical design. His special areas of interest are the development of simulation methods, optical design software and algorithms, the modeling of laser systems and simulation of problems in physical optics, and the tolerance and the measurement of optical systems. Since 1995, he has been head of the central optical design department at Zeiss. In 1995, he received his PhD at the University of Stuttgart, Germany, on the modeling of laser beam propagation in the partial coherent region.

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