自适应光学视网膜成像

Jean-François Le Gargasson , Marie Glanc , Pierre Léna
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引用次数: 16

摘要

人体视网膜在体内成像受人眼自然像差的影响,这限制了视网膜图像的分辨率。使用波前传感技术可以测量这些像差,包括高阶像差。综述了这一领域的快速进展。一旦知道了像差,自适应光学方法,在过去的15年里为天文观测发展起来的,可以应用于改善视网膜成像或给对象提供超视觉。本文综述了这一领域的研究进展,并报道了一些用新仪器取得的原始结果。讨论了未来的应用,包括可能的三维,高分辨率的方法来成像人体视网膜在体内。
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Retinal imaging with adaptive optics

Imaging the human retina in vivo is affected by the eye's natural aberrations, which limit the resolution of retinal images. Measuring these aberrations, including the high order ones, is possible using wavefront sensing techniques. A review of the rapid progress in this field is given. Once the aberrations are known, adaptive optics methods, developed for astronomical observing in the past 15 years, can be applied in order either to improve retinal imaging or to give hyper-vision to the subject. Progress in this domain is reviewed, and some original results are reported with a new instrument. Future applications are discussed, including a possible three-dimensional, high-resolution method to image the human retina in vivo.

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