| 내용 |
1. Introduction. 2. Historical review. 2.1. Definition of optical engineering -- 2.2. Ancient history -- 2.3. Medieval optics -- 2.4. From 1600 to the 1900s -- 2.5. Speed of light -- 2.6. Modern optical engineering -- 2.7. Case history: optics in the United States -- 2.8. The Hubble Space Telescope -- 2.9. Review and summary.
3. Basic concepts of light. 3.1. Light: an elusive topic -- 3.2. Understanding light -- 3.3. Velocity, wavelength, and frequency -- 3.4. Wavefronts and light rays -- 3.5. Light sources -- 3.6. Behavior of light rays -- 3.7. Refraction -- 3.8. Refraction by a lens -- 3.9. Dispersion and color -- 3.10. Diffraction of light -- 3.11. Review and summary.
4. Thin-lens theory. 4.1. Definition of a thin lens -- 4.2. Properties of a thin lens -- 4.3. Aperture stop, entrance and exit pupils, and field stop -- 4.4. Reference coordinate system -- 4.5. Thin-lens power -- 4.6. Ray trace of a thin lens (object at infinity) -- 4.7. Ray trace of a thin lens (finite object distance) -- 4.8. Rounding off -- 4.9. Thin-lens formulas -- 4.10. Applications of thin-lens theory -- 4.11. Mock-up of the thin-lens system -- 4.12. Review and summary.
5. Optical design basics. 5.1. Introduction -- 5.2. Historical perspective -- 5.3. OSLO optical design software package -- 5.4. Introduction to computer design using OSLO -- 5.5. Laser transmitting system -- 5.6. Instrument design and analysis -- 5.7. Magnification analysis -- 5.8. Design of a noncatalog system -- 5.9. Review and summary.
6. Primary lens aberrations. 6.1. Introduction -- 6.2. Spot diagram, radial energy distribution, and modulation transfer function -- 6.3. Spherical aberration -- 6.4. Coma -- 6.5. Field curvature -- 6.6. Astigmatism -- 6.7. Distortion -- 6.8. Axial color -- 6.9. Lateral color -- 6.10. Aberration curves -- 6.11. Point-spread function analysis -- 6.12. Review and summary.
7. Optical components. 7.1. Introduction -- 7.2. Lens -- 7.3. Mirror -- 7.4. Prisms -- 7.5. Review and summary.
8. Basic optical instruments. 8.1. Introduction -- 8.2. Magnifier, or loupe -- 8.3. Eyepiece -- 8.4. Microscope -- 8.5. Telescope -- 8.6. Binoculars -- 8.7. Riflescope -- 8.8. Surveying and optical tooling instruments -- 8.9. Periscope, borescope, and endoscope -- 8.10. Review and summary.
9. Optical materials and coatings. 9.1. Introduction -- 9.2. Optical glass -- 9.3. Low-expansion materials -- 9.4. Surface losses and antireflection coatings -- 9.5. Materials for infrared systems -- 9.6. Optical plastics -- 9.7. Review and summary.
10. Visual optical system. 10.1. Introduction -- 10.2. Structure of the eye -- 10.3. Resolution of the eye -- 10.4. Visual instrument design considerations -- 10.5. Visual instrument focus -- 10.6. Visual instrument detailed lens design -- 10.7. Review and summary.
11. Lens design and image evaluation. 11.1. Introduction -- 11.2. Lens design process -- 11.3. 10x telescope design -- 11.4. Precision collimator lens design -- 11.5. Precision imager lens design -- 11.6. Unusual lens design task -- 11.7. Review and summary.
12. Optics in our world. 12.1. Introduction -- 12.2. Optical illusions: size -- 12.3. Other optical illusions -- 12.4. Seeing the third dimension -- 12.5. Optics and the compact disk -- 12.6. Optics and the projection TV -- 12.7. Optics and photography -- 12.8. Optics of the rainbow -- 12.9. Review and summary.
Appendix A. Basic optical engineering library -- Appendix B. Optical design software sources -- Appendix C. Optical glass sources -- Appendix D. Conversion factors and constants -- Appendix E. Measures and equivalents -- Appendix F. Basic photometric considerations -- Appendix G. Surface sag and conic sections -- Index.
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