BibTeX
@MISC{S_aberrometry:basic,
author = {Marcos S},
title = {ABERROMETRY: BASIC SCIENCE AND CLINICAL APPLICATIONS},
year = {}
}
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Abstract
This paper addresses the concept, measurement and applications of wave aberrations. The ocular optics is not perfect. Apart from conventional low order aberrations (such as defocus and astigmatism) retinal im-ages are degraded by other high order aberrations. Aberrometers typically measure ray deviations at the retinal plane, as a function of pupil position, i.e. local derivatives of the wave aberration. The paper dis-cusses state of the art technology to measure the aberrations of the eye (cornea and crystalline lens), both monochromatic and polychromatic. The aberrometers described include the Hartmann-Shack wavefront sensor, laser ray tracing, spatially resolved refractometer or the corneal aberrations. This technology has been used to advance our understanding on several visual mechanisms, ocular conditions, and corrective methods. Applications include accommodation, myopia, aging, myopia, keratoconus, corneal refractive sur-gery, cataract surgery or contact lenses.
Keyphrases
basic science clinical application wave aberration cataract surgery retinal im-ages local derivative several visual mechanism laser ray tracing corneal aberration ocular condition high order aberration pupil position conventional low order aberration art technology hartmann-shack wavefront sensor crystalline lens corrective method corneal refractive sur-gery ray deviation contact lens retinal plane ocular optic
