Handbook of Optical DesignCRC Press, 2003/09/21 - 512 ページ Infused with more than 500 tables and figures, this reference clearly illustrates the intricacies of optical system design and evaluation and considers key aspects of component selection, optimization, and integration for the development of effective optical apparatus. The book provides a much-needed update on the vanguard in the field with vivid e |
目次
Chapter 1 Geometrical Optics Principles | 1 |
Chapter 2Thin Lenses and Spherical Mirrors | 39 |
Chapter 3 Systems of Several Lenses and Thick Lenses | 49 |
Chapter 4 Spherical Aberration | 73 |
Chapter 5 Monochromatic OffAxis Aberrations | 103 |
Chapter 6 Chromatic Aberrations | 145 |
Chapter 7 The Aberration Polynomial | 171 |
Chapter 8 Diffraction in Optical Systems | 191 |
Chapter 14 Astronomical Telescopes | 333 |
Chapter 15 Visual Systems Visual Telescopes and Afocal Systems | 373 |
Chapter 16 Microscopes | 415 |
Chapter 17 Projection Systems | 439 |
Chapter 18 Lens Design Optimization | 451 |
Appendix 1 Notation and Primary Aberration Coefficients Summary | 477 |
Appendix 2 Mathematical Representation of Optical Surfaces | 485 |
Appendix 3 Optical Materials | 497 |
Chapter 9 Computer Evaluation of Optical Systems | 217 |
Chapter 10 Prisms | 239 |
Chapter 11 Simple Optical Systems and Photographic Lenses | 259 |
Chapter 12 Complex Photographic Lenses | 291 |
Chapter 13 The Human Eye and Ophthalmic Lenses | 315 |
Appendix 4 Exact Ray Tracing of Skew Rays | 503 |
521 | |
523 | |
Back Cover | 534 |
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多く使われている語句
angle angular aperture Applied approximation aspheric assume astigmatism axial beam calculated called chromatic aberration color coma common computed condition consider constant contribution corrected curvature defined described Design diagram diameter diffraction direction distance distortion doublet effective focal length entrance pupil equal equation exit pupil expression eyepiece field Figure flat focus follows formed front function gaussian given glass height important lens lenses light longitudinal magnification magnitude Malacara means meridional method microscope mirror negative normal object observed obtain optical axis optical system paraxial Petzval plane plot positive possible primary principal ray prism produce ratio reflection refractive relation represented respect sagittal separation shape shown in Fig shows single solution spherical aberration stop surface symmetrical Table tangential telescope term thickness thin lenses tracing transverse variables wavefront write zero