Kartik Sreenivasan
Kartik Sreenivasan
NYU Abu Dhabi
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Cited by
Cited by
Revisiting the role of persistent neural activity during working memory
KK Sreenivasan, CE Curtis, M D’Esposito
Trends in cognitive sciences 18 (2), 82-89, 2014
Selective attention supports working memory maintenance by modulating perceptual processing of distractors
KK Sreenivasan, AP Jha
Journal of cognitive neuroscience 19 (1), 32-41, 2007
The what, where and how of delay activity
KK Sreenivasan, M D’Esposito
Nature reviews neuroscience 20 (8), 466-481, 2019
Flexible coding of visual working memory representations during distraction
ES Lorenc, KK Sreenivasan, DE Nee, ARE Vandenbroucke, M D'Esposito
Journal of Neuroscience 38 (23), 5267-5276, 2018
Distributed and dynamic storage of working memory stimulus information in extrastriate cortex
KK Sreenivasan, J Vytlacil, M D'Esposito
Journal of cognitive neuroscience 26 (5), 1141-1153, 2014
Attention to faces modulates early face processing during low but not high face discriminability
KK Sreenivasan, JM Goldstein, AG Lustig, LR Rivas, AP Jha
Attention, Perception, & Psychophysics 71, 837-846, 2009
Working memory representations in visual cortex mediate distraction effects
GE Hallenbeck, TC Sprague, M Rahmati, KK Sreenivasan, CE Curtis
Nature Communications 12 (1), 4714, 2021
Correspondence between stimulus encoding-and maintenance-related neural processes underlies successful working memory
JR Cohen, KK Sreenivasan, M D'Esposito
Cerebral Cortex 24 (3), 593-599, 2014
Temporal characteristics of top-down modulations during working memory maintenance: an event-related potential study of the N170 component
KK Sreenivasan, J Katz, AP Jha
Journal of Cognitive Neuroscience 19 (11), 1836-1844, 2007
Attention selectively modifies the representation of individual faces in the human brain
C Gratton, KK Sreenivasan, MA Silver, M D'Esposito
Journal of Neuroscience 33 (16), 6979-6989, 2013
Evidence for working memory storage operations in perceptual cortex
KK Sreenivasan, C Gratton, J Vytlacil, M D’Esposito
Cognitive, Affective, & Behavioral Neuroscience 14, 117-128, 2014
Reframing the debate: The distributed systems view of working memory
ES Lorenc, KK Sreenivasan
Visual Cognition 29 (7), 416-424, 2021
Common neural mechanisms control attention and working memory
Y Zhou, CE Curtis, KK Sreenivasan, D Fougnie
Journal of Neuroscience 42 (37), 7110-7120, 2022
Working memory templates are maintained as feature-specific perceptual codes
KK Sreenivasan, D Sambhara, AP Jha
Journal of neurophysiology 106 (1), 115-121, 2011
Short-term retention of visual information: Evidence in support of feature-based attention as an underlying mechanism
MH Sneve, KK Sreenivasan, D Alnęs, T Endestad, S Magnussen
Neuropsychologia 66, 1-9, 2015
Spatially specific working memory activity in the human superior colliculus
M Rahmati, K DeSimone, CE Curtis, KK Sreenivasan
Journal of Neuroscience 40 (49), 9487-9495, 2020
Working memory representations in visual cortex mediate the effects of distraction
GE Hallenbeck, TC Sprague, M Rahmati, KK Sreenivasan, CE Curtis
bioRxiv, 2021.02. 01.429259, 2021
Effects of conflict and strategic processing on neural responses to errors in schizophrenia
KR Donaldson, BJ Roach, JM Ford, K Lai, KK Sreenivasan, DH Mathalon
Biological Psychology 140, 9-18, 2019
Across-area synchronization supports feature integration in a biophysical network model of working memory
J Barbosa, V Babushkin, A Temudo, KK Sreenivasan, A Compte
Frontiers in Neural Circuits 15, 716965, 2021
Using a betting game to reveal the rich nature of visual working memories
SB Jabar, KK Sreenivasan, S Lentzou, A Kanabar, TF Brady, D Fougnie
BioRxiv, 2020.10. 28.357442, 2020
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