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Bibliographic Details
Main Authors: Floch, Albert Le, Ropars, Guy
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2206.11194
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author Floch, Albert Le
Ropars, Guy
author_facet Floch, Albert Le
Ropars, Guy
contents The dark entoptic Maxwell spot centroids seen through a blue filter, which coincide with the blue cone-free areas centered on the foveas, are shown to exhibit a structure. When observing through the green part of a blue-green exchange filter in a foveascope, after a fixation through the blue part, a small orange disc is seen around the centre of the pale green memory afterimage corresponding to the blue cone-free area. Using artificial pupils with different diameters, we show that this small circular pattern corresponds to the Airy disc due to the Fraunhofer diffraction through the pupil. Typically, for an eye with a 3 millimeter diameter pupil, the Airy disc exhibits a diameter of about 8 micrometers at the centre of the usual 100-150 micrometer Maxwell centroid. Fixation tests show that the towering central maximum of the Airy pattern irradiance corresponds to the preferred locus of the fixation of the eye near the centre of the blue cone-free area of the fovea. The locus of fixation in human vision thus appears to be located in the only area of the fovea where the large chromatic dispersion is cancelled, optimising the eye acuity.
format Preprint
id arxiv_https___arxiv_org_abs_2206_11194
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle The structure of the Maxwell spot centroid
Floch, Albert Le
Ropars, Guy
Biological Physics
The dark entoptic Maxwell spot centroids seen through a blue filter, which coincide with the blue cone-free areas centered on the foveas, are shown to exhibit a structure. When observing through the green part of a blue-green exchange filter in a foveascope, after a fixation through the blue part, a small orange disc is seen around the centre of the pale green memory afterimage corresponding to the blue cone-free area. Using artificial pupils with different diameters, we show that this small circular pattern corresponds to the Airy disc due to the Fraunhofer diffraction through the pupil. Typically, for an eye with a 3 millimeter diameter pupil, the Airy disc exhibits a diameter of about 8 micrometers at the centre of the usual 100-150 micrometer Maxwell centroid. Fixation tests show that the towering central maximum of the Airy pattern irradiance corresponds to the preferred locus of the fixation of the eye near the centre of the blue cone-free area of the fovea. The locus of fixation in human vision thus appears to be located in the only area of the fovea where the large chromatic dispersion is cancelled, optimising the eye acuity.
title The structure of the Maxwell spot centroid
topic Biological Physics
url https://arxiv.org/abs/2206.11194