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Author Details

Jonathan Winawer
Department of Psychology and Center for Neural Science, New York University.
2002
73
36
PMIDPaper TitleJournal TitlePublished Year
36865223Precise Spatial Tuning of Visually Driven Alpha Oscillations in Human Visual Cortex.bioRxiv2023
37540179The Bouma law accounts for crowding in 50 observers.J Vis2023
36944643Comparing retinotopic maps of children and adults reveals a late-stage change in how V1 samples the visual field.Nat Commun2023
37031051Polar angle asymmetries in visual perception and neural architecture.Trends Neurosci2023
36995280Asymmetries in the discrimination of motion direction around the visual field.J Vis2023
36442582Mnemonic Content and Hippocampal Patterns Shape Judgments of Time.Psychol Sci2023
35266962Mapping spatial frequency preferences across human primary visual cortex.J Vis2022
35697680Linking individual differences in human primary visual cortex to contrast sensitivity around the visual field.Nat Commun2022
35853720Structural Covariance and Heritability of the Optic Tract and Primary Visual Cortex in Living Human Brains.J Neurosci2022
36180226Variability of the Surface Area of the V1, V2, and V3 Maps in a Large Sample of Human Observers.J Neurosci2022
35999054Temporal Dynamics of Neural Responses in Human Visual Cortex.J Neurosci2022
35970558Non-Neural Factors Influencing BOLD Response Magnitudes within Individual Subjects.J Neurosci2022
35931310What has vision science taught us about functional MRI?Neuroimage2022
36257949Perception and memory have distinct spatial tuning properties in human visual cortex.Nat Commun2022
35007281Asymmetries around the visual field: From retina to cortex to behavior.PLoS Comput Biol2022
34091731A touch of hierarchy: population receptive fields reveal fingertip integration in Brodmann areas in human primary somatosensory cortex.Brain Struct Funct2021
33531414Population Receptive Field Shapes in Early Visual Cortex Are Nearly Circular.J Neurosci2021
34582948Cross-dataset reproducibility of human retinotopic maps.Neuroimage2021
34687857A visual encoding model links magnetoencephalography signals to neural synchrony in human cortex.Neuroimage2021
34509622A population receptive field model of the magnetoencephalography response.Neuroimage2021
34342581Cortical magnification in human visual cortex parallels task performance around the visual field.Elife2021
32584808A validation framework for neuroimaging software: The case of population receptive fields.PLoS Comput Biol2020
32986805Stimulus-dependent contrast sensitivity asymmetries around the visual field.J Vis2020
31125331Modeling visual performance differences 'around' the visual field: A computational observer approach.PLoS Comput Biol2019
31702552An image-computable model for the stimulus selectivity of gamma oscillations.Elife2019
31747389Predicting neuronal dynamics with a delayed gain control model.PLoS Comput Biol2019
31239438iEEG-BIDS, extending the Brain Imaging Data Structure specification to human intracranial electrophysiology.Sci Data2019
31336090Cerebellar Function: Multiple Topographic Maps of Visual Space.Curr Biol2019
29192127Compressive Temporal Summation in Human Visual Cortex.J Neurosci2018
30240547Human posterior parietal cortex responds to visual stimuli as early as peristriate occipital cortex.Eur J Neurosci2018
30140892Sensory and decision-making processes underlying perceptual adaptation.J Vis2018
30520736Bayesian analysis of retinotopic maps.Elife2018
30593068The Human Connectome Project 7 Tesla retinotopy dataset: Description and population receptive field analysis.J Vis2018
29529085A non-invasive, quantitative study of broadband spectral responses in human visual cortex.PLoS One2018
28742093Neuronal synchrony and the relation between the blood-oxygen-level dependent response and the local field potential.PLoS Biol2017
28486114Gamma oscillations and photosensitive epilepsy.Curr Biol2017
29188017Identification of the ventral occipital visual field maps in the human brain.F1000Res2017
28628004Visual field map clusters in human frontoparietal cortex.Elife2017
25267856A Predominantly Visual Subdivision of The Right Temporo-Parietal Junction (vTPJ).Cereb Cortex2016
27939584Linking Electrical Stimulation of Human Primary Visual Cortex, Size of Affected Cortical Area, Neuronal Responses, and Subjective Experience.Neuron2016
25828567A Major Human White Matter Pathway Between Dorsal and Ventral Visual Cortex.Cereb Cortex2016
24855114Stimulus Dependence of Gamma Oscillations in Human Visual Cortex.Cereb Cortex2015
26241699Human V4 and ventral occipital retinotopic maps.Vis Neurosci2015
25850730Computational neuroimaging and population receptive fields.Trends Cogn Sci2015
25739095Prevalence of learned grapheme-color pairings in a large online sample of synesthetes.PLoS One2015
25575448Gamma oscillations in visual cortex: the stimulus matters.Trends Cogn Sci2015
25411970Cultural differences in perceptual reorganization in US and Pirahã adults.PLoS One2014
23110879Connective field modeling.Neuroimage2013
24381539GLMdenoise: a fast, automated technique for denoising task-based fMRI data.Front Neurosci2013
23595729A brain area for visual numerals.J Neurosci2013
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Collaborators

Stanford University
Co-authored papers 18
eScience Institute, University of Washington
Co-authored papers 12
Mayo Clinic
Co-authored papers 7
Center for Image Sciences, UMC Utrecht
Co-authored papers 5
Perelman School of Medicine, University of Pennsylvania
Co-authored papers 4
Stanford University School of Medicine
Co-authored papers 4
Utrecht University
Co-authored papers 4
Mayo Clinic
Co-authored papers 4
University of Washington, Department of Psychology and eScience Institute
Co-authored papers 3
National Institute of Mental Health
Co-authored papers 3
New York University Langone Medical Center
Co-authored papers 3
New York University School of Medicine
Co-authored papers 3
University Medical Center Utrecht Brain Center, Utrecht University
Co-authored papers 3
Helen Wills Neuroscience Institute, University of California-Berkeley
Co-authored papers 2
University of California San Francisco
Co-authored papers 2
Hadassah Medical Center and Faculty of Medicine, Hebrew University of Jerusalem
Co-authored papers 1
Stanford University School of Medicine
Co-authored papers 1
Stanford University
Co-authored papers 1
Mayo Clinic
Co-authored papers 1
Donders Institute for Brain, Radboud University Nijmegen
Co-authored papers 1
The Alan Turing Institute
Co-authored papers 1
Redwood Center for Theoretical Neuroscience, UC Berkeley.
Co-authored papers 1
Institut National de la Sante et de la Recherche Medicale (INSERM)
Co-authored papers 1
Stanford University
Co-authored papers 1
Max Planck Institute for Human Development
Co-authored papers 1
Donders Institute for Brain, Radboud University, Dartmouth College
Co-authored papers 1
Norman Fixel Institute for Neurological Diseases, University of Florida
Co-authored papers 1
Aalto University
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Johns Hopkins University
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Schulich School of Medicine and Dentistry, Western University
Co-authored papers 1