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Troxler Fading, Eye Movements, and Retinal Ganglion Cell Properties:

Troxler Fading, Eye Movements, and Retinal Ganglion Cell Properties: We present four movies demonstrating the effect of flicker and blur on the magnitude and speed of adaptation for foveal and peripheral vision along the three color axes that isolate retinal ganglion cells projecting to magno, parvo, and konio layers of the LGN. The demonstrations support the eye movement hypothesis for Troxler fading for brightness and color, and demonstrate the effects of flicker and blur on adaptation of each class of retinal ganglion cells. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png i-Perception SAGE

Troxler Fading, Eye Movements, and Retinal Ganglion Cell Properties:

Bachy, Romain; Zaidi, Qasim
i-Perception , Volume 5 (7): 2 – Jan 1, 2014
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References (8)

Publisher
SAGE
Copyright
Copyright © 2019 by SAGE Publications Ltd unless otherwise noted. Manuscript content on this site is licensed under Creative Commons Licenses
ISSN
2041-6695
eISSN
2041-6695
DOI
10.1068/i0679sas
Publisher site
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Abstract

We present four movies demonstrating the effect of flicker and blur on the magnitude and speed of adaptation for foveal and peripheral vision along the three color axes that isolate retinal ganglion cells projecting to magno, parvo, and konio layers of the LGN. The demonstrations support the eye movement hypothesis for Troxler fading for brightness and color, and demonstrate the effects of flicker and blur on adaptation of each class of retinal ganglion cells.

Journal

i-PerceptionSAGE

Published: Jan 1, 2014

Keywords: eye movement,Troxler fading,adaptation,after-image,retinal ganglion cells

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