Investigation of the isoplanatic patch and wave front aberration along the papillary axis compared to the line of sight in the eye

Maciej Nowakowski; Matthew Sheehan; Daniel Neal; Alexander V. Goncharov

doi:10.1364/BOE.3.000240

Investigation of the isoplanatic patch and wave front aberration along the papillary axis compared to the line of sight in the eye

Maciej Nowakowski, Matthew Sheehan, Daniel Neal, Alexander V. Goncharov

Research output: Contribution to journal › Article › peer-review

Abstract

Conventional optical systems usually provide best image quality on axis, while showing unavoidable gradual decrease in image quality towards the periphery of the field. The optical system of the human eye is not an exception. Within a limiting boundary the image quality can be considered invariant with field angle, and this region is known as the isoplanatic patch. We investigate the isoplanatic patch of eight healthy eyes and measure the wavefront aberration along the pupillary axis compared to the line of sight. The results are used to discuss methods of ocular aberration correction in wide-field retinal imaging with particular application to multi-conjugate adaptive optics systems.

Original language	English
Pages (from-to)	240-258
Number of pages	19
Journal	Biomedical Optics Express
Volume	3
Issue number	2
DOIs	https://doi.org/10.1364/BOE.3.000240
Publication status	Published - 1 Feb 2012
Externally published	Yes

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abstract = "Conventional optical systems usually provide best image quality on axis, while showing unavoidable gradual decrease in image quality towards the periphery of the field. The optical system of the human eye is not an exception. Within a limiting boundary the image quality can be considered invariant with field angle, and this region is known as the isoplanatic patch. We investigate the isoplanatic patch of eight healthy eyes and measure the wavefront aberration along the pupillary axis compared to the line of sight. The results are used to discuss methods of ocular aberration correction in wide-field retinal imaging with particular application to multi-conjugate adaptive optics systems.",

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AU - Goncharov, Alexander V.

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AB - Conventional optical systems usually provide best image quality on axis, while showing unavoidable gradual decrease in image quality towards the periphery of the field. The optical system of the human eye is not an exception. Within a limiting boundary the image quality can be considered invariant with field angle, and this region is known as the isoplanatic patch. We investigate the isoplanatic patch of eight healthy eyes and measure the wavefront aberration along the pupillary axis compared to the line of sight. The results are used to discuss methods of ocular aberration correction in wide-field retinal imaging with particular application to multi-conjugate adaptive optics systems.

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Investigation of the isoplanatic patch and wave front aberration along the papillary axis compared to the line of sight in the eye

Abstract

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