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Main Authors: Chkhaidze, Ana, Reeder, Reshanne R., Gag, Connor, Kiyonaga, Anastasia, Coulson, Seana
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.09011
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author Chkhaidze, Ana
Reeder, Reshanne R.
Gag, Connor
Kiyonaga, Anastasia
Coulson, Seana
author_facet Chkhaidze, Ana
Reeder, Reshanne R.
Gag, Connor
Kiyonaga, Anastasia
Coulson, Seana
contents A rapidly alternating red and black display known as Ganzflicker induces visual hallucinations that reflect the generative capacity of the visual system. Individuals vary in their degree of visual imagery, ranging from absent to vivid imagery. Recent proposals suggest that differences in the visual system along this imagery spectrum should also influence the complexity of other internally generated visual experiences. Here, we used tools from natural language processing to analyze free-text descriptions of hallucinations from over 4,000 participants, asking whether people with different imagery phenotypes see different things in their mind's eye during Ganzflicker-induced hallucinations. Topic modeling of descriptions revealed that strong imagers described complex, naturalistic content, while weak imagers reported simple geometric patterns. Using crowd-sourced sensorimotor norms, we also found that participants with stronger imagery used language with richer perceptual associations. These findings may reflect individual variation in coordination between early visual areas and higher-order regions relevant for the imagery spectrum.
format Preprint
id arxiv_https___arxiv_org_abs_2507_09011
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle From dots to faces: Individual differences in visual imagery capacity predict the content of Ganzflicker-induced hallucinations
Chkhaidze, Ana
Reeder, Reshanne R.
Gag, Connor
Kiyonaga, Anastasia
Coulson, Seana
Computation and Language
Neurons and Cognition
Quantitative Methods
A rapidly alternating red and black display known as Ganzflicker induces visual hallucinations that reflect the generative capacity of the visual system. Individuals vary in their degree of visual imagery, ranging from absent to vivid imagery. Recent proposals suggest that differences in the visual system along this imagery spectrum should also influence the complexity of other internally generated visual experiences. Here, we used tools from natural language processing to analyze free-text descriptions of hallucinations from over 4,000 participants, asking whether people with different imagery phenotypes see different things in their mind's eye during Ganzflicker-induced hallucinations. Topic modeling of descriptions revealed that strong imagers described complex, naturalistic content, while weak imagers reported simple geometric patterns. Using crowd-sourced sensorimotor norms, we also found that participants with stronger imagery used language with richer perceptual associations. These findings may reflect individual variation in coordination between early visual areas and higher-order regions relevant for the imagery spectrum.
title From dots to faces: Individual differences in visual imagery capacity predict the content of Ganzflicker-induced hallucinations
topic Computation and Language
Neurons and Cognition
Quantitative Methods
url https://arxiv.org/abs/2507.09011