Ashwin Venkatakrishnan scite author profile

Ashwin Venkatakrishnan

5Publications

43Citation Statements Received

102Citation Statements Given

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Affiliations

SUNY Downstate Medical Center, Singapore University of Social Sciences

Publications

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Microsteganography on WS₂ Monolayers Tailored by Direct Laser Painting

et al. 2017

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We present scanning focused laser beam as a multipurpose tool to engineer the physical and chemical properties of WS microflakes. For monolayers, the laser modification integrates oxygen into the WS microflake, resulting in ∼9 times enhancement in the intensity of the fluorescence emission. This modification does not cause any morphology change, allowing "micro-encryption" of information that is only observable as fluorescence under excitation. The same focused laser also facilitates on demand thinning down of WS multilayers into monolayers, turning them into fluorescence active components. With a scanning focused laser beam, micropatterns are readily created on WS multilayers through selective thinning of specific regions on the flake.

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Gaze mechanisms enabling the detection of faint stars in the night sky

Alexander

Mintz

Custodio

et al. 2021

Eur J of Neuroscience

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For millennia, people have used “averted vision” to improve their detection of faint celestial objects, a technique first documented around 325 BCE. Yet, no studies have assessed gaze location during averted vision to determine what pattern best facilitates perception. Here, we characterized averted vision while recording eye‐positions of dark‐adapted human participants, for the first time. We simulated stars of apparent magnitudes 3.3 and 3.5, matching their brightness to Megrez (the dimmest star in the Big Dipper) and Tau Ceti. Participants indicated whether each star was visible from a series of fixation locations, providing a comprehensive map of detection performance in all directions. Contrary to prior predictions, maximum detection was first achieved at ~8° from the star, much closer to the fovea than expected from rod‐cone distributions alone. These findings challenge the assumption of optimal detection at the rod density peak and provide the first systematic assessment of an age‐old facet of human vision.

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Microsaccades mediate perceptual alternations in Monet’s “Impression, sunrise”

Alexander

Venkatakrishnan

Chanovas

et al. 2021

Sci Rep

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Troxler fading, the perceptual disappearance of stationary images upon sustained fixation, is common for objects with equivalent luminance to that of the background. Previous work showed that variations in microsaccadic rates underlie the perceptual vanishing and intensification of simple stimuli, such as Gabor patches. Here, we demonstrate that microsaccade dynamics also contribute to Troxler fading and intensification during the viewing of representational art. Participants fixated a small spot while viewing either a Gabor patch on a blank background, or Monet’s painting “Impression, Sunrise.” They continuously reported, via button press/release, whether the Gabor patch, or the sun in Monet’s painting, was fading versus intensifying, while their eye movements were recorded with high precision. Microsaccade rates peaked before reports of increased visibility, and dropped before reports of decreased visibility or fading, both when viewing Gabor patches and Monet’s sun. These results reveal that the relationship between microsaccade production and the reversal and prevention of Troxler fading applies not only to the viewing of contrived stimuli, but also to the observation of “Impression, Sunrise.” Whether or not perceptual fading was consciously intended by Monet, our findings indicate that observers’ oculomotor dynamics are a contributor to the cornerstone of Impressionism.

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Author response for "Gaze Mechanisms Enabling the Detection of Faint Stars in the Night Sky"

Alexander¹,

Mintz²,

Custodio³

et al. 2021

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Why did Rubens add a parrot to Titian’s “Fall of Man”? An eye tracking investigation reveals attentional focus while viewing Italian Renaissance paintings

et al. 2022

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