Description
Book SynopsisThe competent and intelligent optical design of today's state-of-the-art products requires an understanding of optical aberrations. This accessible book provides an excellent introduction to the wave theory of aberrations and will be valuable to graduate students in optical engineering, as well as to researchers and technicians in academia and industry interested in optical imaging systems. Using a logical structure, uniform mathematical notation and high quality figures, the author helps readers to learn the theory of optical aberrations in a modern and efficient manner. In addition to essential topics such as the aberration function, wave aberrations, ray caustics and aberration coefficients, this text covers pupil aberrations, the irradiance function, aberration fields and polarization aberrations. It also provides a historical perspective by explaining the discovery of aberrations and two chapters provide insight into classical image formation; these topics of discussion are often
Trade Review'This book is about wave theory of aberrations and includes the complete mathematical theory of aberrations … it is intended for graduate and PhD students in optical engineering, as well as researchers in academia and industry who are interested in design and analysis of optical imaging systems.' Darko Vasiljevic, Optics and Photonics News
Table of ContentsPreface; 1. Introduction; 2. Basic concepts in geometrical optics; 3. Imaging with light rays; 4. Imaging with light waves; 5. The aberration function; 6. The location and size of an image; 7. Wavefront aberrations; 8. Ray aberrations; 9. Ray caustics; 10. Aberration coefficients; 11. Structural aberration coefficients; 12. Pupil aberrations; 13. Irradiance function; 14. Sixth-order aberration coefficients; 15. Aberrations of non-axially symmetric systems; 16. Polarization aberrations; 17. Conclusions; 18. Appendix: wave coefficients; Index.
