In this paper we present a curvature wavefront sensor for the eye. The layout proposed is novel, whilst the algorithm used has been adapted from previously published work [Roddier, F.; Roddier, C. Appl. Opt. 1991, 30, 1325-1327]. The design of the set-up incorporates two field lenses that, together with a beam separator, define the distance Delta z between the two sampled planes. We present a feasibility study to use this particular combination of optical configuration and retrieval algorithm in the eye. We present calibration curves and results from three real eyes.
Wavefront curvature sensing for the human eye
Torti C;
2008-01-01
Abstract
In this paper we present a curvature wavefront sensor for the eye. The layout proposed is novel, whilst the algorithm used has been adapted from previously published work [Roddier, F.; Roddier, C. Appl. Opt. 1991, 30, 1325-1327]. The design of the set-up incorporates two field lenses that, together with a beam separator, define the distance Delta z between the two sampled planes. We present a feasibility study to use this particular combination of optical configuration and retrieval algorithm in the eye. We present calibration curves and results from three real eyes.File in questo prodotto:
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