Modern Ophthalmic Optics

Provides a comprehensive account of the most recent developments in modern ophthalmic optics, including free form technology.

José Alonso (Author), José A. Gómez-Pedrero (Author), Juan A. Quiroga (Author)

9781107110748, Cambridge University Press

Hardback, published 11 April 2019

562 pages, 214 b/w illus. 18 tables
25.3 x 17.8 x 3 cm, 1.27 kg

'This dense volume (546 pages) is a reasonably comprehensive discussion of various topics in the field. The unique feature of this book is the use of matrix formalism to describe curvature and power of a surface. The matrix formalism is especially useful for analyzing astigmatic systems. There are many good things about this book … it will be an invaluable reference book for researchers and graduate student in ophthalmic optics or for optical engineers who desire to know more about the field.' Vengu Lakshminarayanan, Optics & Photonics News

This book is a comprehensive account of the most recent developments in modern ophthalmic optics. It makes use of the powerful matrix formalism to describe curvature and power, providing a unified view of the optical and geometrical properties of lenses. This unified approach is applicable to the design and properties of not only spectacle lenses, but also contact and intraocular lenses (IOL). The newest developments in lens design, manufacturing and testing are discussed, with an emphasis on the description of free-form technology, which has surpassed traditional manufacturing methods and allows digital lenses to be specifically designed with the unique requirements of the user. Other important topics which are covered include modern lens materials, up-to-date lens measuring techniques, contact and intraocular lenses, progressive power lenses, low vision aids, ocular protection and coatings. Providing a broad overview of recent developments in the field, it is ideal for researchers, manufacturers and practitioners involved in ophthalmic optics.

Preface
Acknowledgements
1. Ophthalmic materials
2. Surfaces in ophthalmic lenses
3. Wavefronts and rays
4. Single vision lenses
5. The lens-eye system
6. Aberrations and lens design
7. Optics of contact and intraocular lenses
8. Multifocal lenses
9. Low vision aids and high power lenses
10. Lens manufacturing and measurement
11. Filters and coatings
Appendix A. Frames
Appendix B. Introduction to matrix algebra
Appendix C. Introduction to surface geometry
Appendix D. Local dioptric power matrix
Appendix E. Seidel aberrations and Zernike polynomials
Appendix F. Abelès theory of multilayer films
References
Index.

Subject Areas: Applied optics [TTB], Optical physics [PHJ], Optometry / opticians [MQR]