Abstract is: Stephen Louis Macknik (/ˈmæknɪk/ MAK-nik; born August 9, 1968) is an American neuroscientist and science writer. He is a Professor of Ophthalmology, Neurology, and Physiology & Pharmacology at the State University of New York, Downstate Medical Center, where he directs the Laboratory of Translational Neuroscience. He directed laboratories previously at the Barrow Neurological Institute and University College London. He is best known for his studies on illusions, consciousness, attentional misdirection in stage magic, and cerebral blood flow. Macknik is a founding member of the Neural Correlate Society. He serves on the Advisory Board of Scientific American: Mind, and on the Leadership Team of the Center for Emergency Management and Homeland Security at Arizona State University.
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P27 | country of citizenship | United States of America | Q30 |
P69 | educated at | Harvard University | Q13371 |
University of California, Santa Cruz | Q1047293 | ||
P108 | employer | Arizona State University | Q670897 |
Barrow Neurological Institute | Q4863895 | ||
University College London | Q193196 | ||
P734 | family name | Macknik | Q61913756 |
Macknik | Q61913756 | ||
Macknik | Q61913756 | ||
P735 | given name | Stephen | Q4927100 |
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neuroscientist | Q6337803 | ||
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Q30839982 | Abnormal Capillary Vasodynamics Contribute to Ictal Neurodegeneration in Epilepsy. |
Q90753213 | Advanced Circuit and Cellular Imaging Methods in Nonhuman Primates |
Q36762632 | An oculomotor continuum from exploration to fixation |
Q64109031 | Area V1 responses to illusory corner-folds in Vasarely's nested squares and the Alternating Brightness Star illusions |
Q28298532 | Attention and awareness in stage magic: turning tricks into research |
Q80841183 | BOLD activation varies parametrically with corner angle throughout human retinotopic cortex |
Q39149693 | Changes in visibility as a function of spatial frequency and microsaccade occurrence. |
Q27307651 | Characteristics of Spontaneous Square-Wave Jerks in the Healthy Macaque Monkey during Visual Fixation |
Q48605221 | Corner salience varies linearly with corner angle during flicker-augmented contrast: a general principle of corner perception based on Vasarely's artworks. |
Q80425101 | Dichoptic visual masking reveals that early binocular neurons exhibit weak interocular suppression: implications for binocular vision and visual awareness |
Q43511867 | Different fixational eye movements mediate the prevention and the reversal of visual fading |
Q33689048 | Distinctive features of microsaccades in Alzheimer's disease and in mild cognitive impairment |
Q30500965 | Distinctive features of saccadic intrusions and microsaccades in progressive supranuclear palsy |
Q42592084 | Effect of stimulus width on simultaneous contrast |
Q52146556 | Effects of long and short simulated flights on the saccadic eye movement velocity of aviators. |
Q34380264 | Fixational eye movement correction of blink-induced gaze position errors. |
Q37369180 | Fixational eye movements across vertebrates: comparative dynamics, physiology, and perception |
Q28244855 | Fixational eye movements and binocular vision |
Q44226587 | Flicker distorts visual space constancy. |
Q38631903 | From Exploration to Fixation: An Integrative View of Yarbus's Vision |
Q51110297 | Highly informative natural scene regions increase microsaccade production during visual scanning. |
Q33164354 | Intersaccadic drift velocity is sensitive to short-term hypobaric hypoxia. |
Q47625466 | Magic and the brain |
Q44905430 | Microsaccade and drift dynamics reflect mental fatigue. |
Q51374292 | Microsaccades and blinks trigger illusory rotation in the "rotating snakes" illusion. |
Q28306816 | Microsaccades counteract perceptual filling-in |
Q46901797 | Microsaccades counteract visual fading during fixation. |
Q30484235 | Microsaccades drive illusory motion in the Enigma illusion |
Q37086664 | Microsaccades restore the visibility of minute foveal targets. |
Q84524863 | Microsaccadic efficacy and contribution to foveal and peripheral vision |
Q55304072 | Modeling the Triggering of Saccades, Microsaccades, and Saccadic Intrusions. |
Q48242851 | Neuronal correlates of visibility and invisibility in the primate visual system |
Q53294438 | Novel visual illusions related to Vasarely's 'nested squares' show that corner salience varies with corner angle. |
Q36784062 | Optical images of visible and invisible percepts in the primary visual cortex of primates |
Q30528867 | Optimizing the temporal dynamics of light to human perception |
Q21128742 | Perceptual elements in Penn & Teller's "Cups and Balls" magic trick |
Q43196869 | Reply to Gorea and Tyler: Casting light on previous bumps in the dark. |
Q83192027 | Saccades and microsaccades during visual fixation, exploration, and search: foundations for a common saccadic generator |
Q34629738 | Saccades during attempted fixation in parkinsonian disorders and recessive ataxia: from microsaccades to square-wave jerks |
Q39324548 | Saccadic eye movement metrics reflect surgical residents' fatigue. |
Q46500704 | Saccadic suppression relies on luminance information |
Q38094432 | Saccadic velocity as an arousal index in naturalistic tasks |
Q35650025 | Simultaneous recordings of human microsaccades and drifts with a contemporary video eye tracker and the search coil technique |
Q39912340 | Simultaneous recordings of ocular microtremor and microsaccades with a piezoelectric sensor and a video-oculography system |
Q23001985 | Sleights of Mind |
Q35451238 | Social misdirection fails to enhance a magic illusion. |
Q89531889 | Spatiotemporal functional organization of excitatory synaptic inputs onto macaque V1 neurons |
Q35565516 | Stronger misdirection in curved than in straight motion |
Q50664947 | Task difficulty in mental arithmetic affects microsaccadic rates and magnitudes. |
Q36909526 | Task difficulty modulates the activity of specific neuronal populations in primary visual cortex |
Q88660267 | The Plight of the Celebrity Scientist |
Q90753234 | The Storytelling Brain: How Neuroscience Stories Help Bridge the Gap between Research and Society |
Q36773770 | The effects of fixation target size and luminance on microsaccades and square-wave jerks. |
Q34162251 | The function of bursts of spikes during visual fixation in the awake primate lateral geniculate nucleus and primary visual cortex |
Q38074859 | The impact of microsaccades on vision: towards a unified theory of saccadic function. |
Q42229832 | The linearity and selectivity of neuronal responses in awake visual cortex |
Q37762168 | The role of feedback in visual masking and visual processing |
Q35163147 | The role of spatiotemporal edges in visibility and visual masking |
Q47854325 | Tired in the Reading Room: The Influence of Fatigue in Radiology |
Q37939293 | Triggering mechanisms in microsaccade and saccade generation: a novel proposal |
Q46039882 | Unsupervised clustering method to detect microsaccades. |
Q46131313 | V1 neurons can distinguish between motion in the world and visual displacements due to eye movements: a microsaccade study. |
Q30665218 | V1 neurons respond differently to object motion versus motion from eye movements. |
Q34129734 | Visibility, visual awareness, and visual masking of simple unattended targets are confined to areas in the occipital cortex beyond human V1/V2 |
Q36617004 | Visual masking approaches to visual awareness |
Q52919615 | Wakes and spokes: new motion-induced brightness illusions. |
Q81349599 | Windows on the mind |
Category:Stephen Macknik | wikimedia | |
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