Abstract
ABSTRACTThe Pulfrich Effect is an illusion characterized by the misperception of the depth and 3D direction of moving objects. Interocular luminance differences cause the Classic Pulfrich effect; the darker image is processed more slowly. Interocular blur differences cause the Reverse Pulfrich effect; the blurrier image is processed more quickly. A common correction for presbyopia—monovision—intentionally induces the optical conditions that cause the Reverse Pulfrich Effect. The effect sizes, and the fact that tens of millions of people wear these corrections every day, raise concerns about public safety. However, although the impact of overall light-level (e.g., nighttime vs. daytime) on the Classic Pulfrich effect has been well-characterized, its impact on the Reverse Pulfrich effect is unknown. Here, using a custom binocular 4f tunable lens optical system that allows the decoupling of retinal illuminance and retinal blur, we report how the Classic and Reverse Pulfrich effects scale with overall light-level. Both effects increase logarithmically with decreases in light-level. These results motivate a characterization of how light level interacts with other optical factors (e.g., higher-order aberrations) that are likely to impact the Reverse Pulfrich effect, and hence the perceptual consequences of monovision corrections.Commercial disclosureV. Rodriguez Lopez: None; B. Chin: None; J. Burge: None.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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