CORDIS Project
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This project investigates how flickering light influences brain rhythms and visual perception. By utilizing advanced neurobiological tools, it aims to uncover the neural mechanisms that enable the brain to respond to flicker stimuli, enhancing our understanding of sensory processing.
Almost 200 years ago, Jan Purkinje examined the visual illusions induced by flickering light.
Since then, scientists, clinicians, and artists have been fascinated by the effects of flicker on brain rhythms.
When entrained with rhythmic light of ~10, ~20, ~40 Hz, visual cortex responds more strongly, or resonates.
In the visual and cognitive neurosciences, resonance flicker is used to study perception and attention; in clinical domain, aberrant resonance responses to flicker are used as a diagnos…
KONINKLIJKE NEDERLANDSE AKADEMIE VAN WETENSCHAPPEN - KNAW
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