Handbook of Visual Optics offers an authoritative overview of encyclopedic knowledge in the field of physiological optics. It builds from fundamental concepts to the science and technology of instruments and practical procedures of vision correction, integrating expert knowledge from physics, medicine, biology, psychology, and engineering. The chapters comprehensively cover all aspects of modern study and practice, from optical principles and optics of the eye and retina to novel ophthalmic tools for imaging and visual testing, devices and techniques for visual correction, and the relationship between ocular optics and visual perception.
Table of Contents
VOLUME ONE: Fundamentals and Eye Optics. I. Fundamentals/Background. History of physiological optics. Geometrical optics. Wave optics. Aberrations in optical systems. Light sources and detectors. Photometry. Optical ray‐tracing techniques. Generation of visual stimulus. Basics ophthalmic instruments. Instrumentation for adaptive optics. Anatomy of the eye. The retina. Visual system architecture. Visual psychophysical methods. II. Optical Properties of the Eye. The tear film. The cornea. The pupil. The lens. The retina. Stiles‐Crawford effect. Axis and angles. Paraxial schematic eye models. Refractive errors. Monochromatic aberrations. Chromatic aberrations. Peripheral optics. Statistics of eye’s aberrations. Customized eye models. Scattering and glare. Accommodation mechanism. Accommodation dynamics. Eye movements. Aging and eye’s optics. Polarization properties. Animal eyes. VOLUME TWO: Instrumentation and Vision Correction. III. Ophthalmic Instrumentation. Light safety in the eye. Double‐pass ophthalmoscopes. Ocular wave‐front sensors. Instruments to measure scatter. Low coherence interferometry. Ocular adaptive optics (AO): history. AO‐ophthalmoscopes. AO‐SLO. Optical coherence tomography (OCT): history. Anterior segment OCT. AO & OCT. Multiphoton imaging: cornea. Multiphoton imaging: retina. AO for visual testing. IV. Vision Correction. Ophthalmic lenses. Contact lenses. Intraocular lenses: monofocal. Intraocular lenses: multifocal. Intraocular lenses: accommodating. Intraocular lenses: adjustable. Image magnifying devices. Refractive surgery: history. Wavefront guided refractive surgery. Non‐linear treatments. Synthetic corneas. Onlays and inlays corrections. V. Impact of Eye’s Optics in Vision. Optical and visual metrics. Predicting visual acuity. Impact of aberrations on vision. Neural adaptation to blur. Neural adaptation to aberrations. Contrast adaptation. Visual changes with aging
Hear from Dr. Artal at this Q&A session: http://ow.ly/wudA30fLW84
Pablo Artal received his Ph.D. degree in Physics from the University Complutense of Madrid, and was a post-doctoral fellow at the Institut d'Optique, Orsay, France and a senior researcher at the Instituto de Optica in Madrid. He is since 1994 full Professor of Optics at the University of Murcia, Spain. He spent several periods doing collaborative research in laboratories in Europe, Australia and USA. He is a fellow member of the OSA and ARVO. He received the prestigious 2013 Edwin H Land medal award in recognition of his scientific contributions to the advancement of diagnostic and correction alternatives in visual optics. He is the recipient of the exclusive "ERC advanced grant" in 2013. He has published more than 150 reviewed papers that received 5500 citations (h-index: 41), presented more than 150 invited talks in international meetings and around 120 seminars in different research institutions. He is also a co-inventor of 18 international patents in the field of Optics and Ophthalmology. He has pioneered a number of highly innovative advances in the methods for studying the optics of the eye and has contributed substantially to our understanding of the factors that limit human visual resolution.
Dr. Artal is a pioneer in exploring the human eye with new technologies and designed new ophthalmic corrections. Several of his proposed solutions and instrument are currently in use in the clinical practice. For example, he co-invented intraocular lenses correcting for the corneal spherical aberration that provides improved quality of vision to millions of patients over the world. Dr. Artal is the founder of Voptica SL a spin-off company developing the concept he invented of adaptive optics vision analyzers. He has been the mentor of many graduate and post-doctoral students. His personal science blog is followed by readers, mostly graduate studen