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Hauptverfasser: Floch, Albert Le, Ropars, Guy
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2507.08703
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author Floch, Albert Le
Ropars, Guy
author_facet Floch, Albert Le
Ropars, Guy
contents Symmetry breaking is common in animal and human brains where the lack of asymmetry often perturbs behavioral and cognitive functions. In particular, the ubiquity of mirror-image confusion in young children, which often persists in dyslexia, is established. However, the very existence of these symmetric mirror-images and their perceptual or memory nature remain controversial. Here, using the noise-activated afterimage method, we demonstrate that a dyslexic with mirror-images is an ideal candidate for solving the mystery. Indeed, after a monocular fixation, the primary afterimages are perceived alone through this eye, while the mirror-images are also perceived alone, but exclusively through the other eye which has remained closed. We deduce that the callosal interhemispheric connections are necessarily projected on the dominance columns of layer 4 of the primary cortex, the only layer where segregation is strict, and are furthermore crossed. Our results show that perceived primary and mirror images are spatially and temporally resolved.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08703
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Direct observation of the crossed interhemispheric transfer of the left-right mirror-images in human vision
Floch, Albert Le
Ropars, Guy
Biological Physics
Symmetry breaking is common in animal and human brains where the lack of asymmetry often perturbs behavioral and cognitive functions. In particular, the ubiquity of mirror-image confusion in young children, which often persists in dyslexia, is established. However, the very existence of these symmetric mirror-images and their perceptual or memory nature remain controversial. Here, using the noise-activated afterimage method, we demonstrate that a dyslexic with mirror-images is an ideal candidate for solving the mystery. Indeed, after a monocular fixation, the primary afterimages are perceived alone through this eye, while the mirror-images are also perceived alone, but exclusively through the other eye which has remained closed. We deduce that the callosal interhemispheric connections are necessarily projected on the dominance columns of layer 4 of the primary cortex, the only layer where segregation is strict, and are furthermore crossed. Our results show that perceived primary and mirror images are spatially and temporally resolved.
title Direct observation of the crossed interhemispheric transfer of the left-right mirror-images in human vision
topic Biological Physics
url https://arxiv.org/abs/2507.08703