Timothy J. Buschman

Princeton University, Princeton, NJ 
Systems, Attention, Cogntive Control
"Timothy Buschman"
Mean distance: 12.75 (cluster 17)


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Robert Desimone research assistant 2000-2001 NIMH
Earl K. Miller grad student 2001-2008 MIT
Earl K. Miller post-doc 2008-2011 MIT
Christopher I. Moore post-doc 2011-2013 MIT
Edward S. Boyden post-doc 2012-2013 MIT


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Matthew F. Panichello grad student Princeton
Sina Tafazoli grad student Princeton
Camden J MacDowell grad student 2017- Princeton
Pavlos Kollias grad student 2014-2021 Princeton
Pavlos Kollias grad student 2014-2021 Princeton
R Becket Ebitz post-doc 2015-2017 Princeton
Nikola T. Markov post-doc 2014-2018 Princeton
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Panichello MF, Buschman TJ. (2021) Shared mechanisms underlie the control of working memory and attention. Nature. 592: 601-605
Beukers AO, Buschman TJ, Cohen JD, et al. (2021) Is Activity Silent Working Memory Simply Episodic Memory? Trends in Cognitive Sciences
Tafazoli S, MacDowell C, Che Z, et al. (2020) Learning to control the brain through adaptive closed-loop patterned stimulation. Journal of Neural Engineering
Yu Q, Panichello MF, Cai Y, et al. (2020) Delay-period activity in frontal, parietal, and occipital cortex tracks noise and biases in visual working memory. Plos Biology. 18: e3000854
MacDowell CJ, Buschman TJ. (2020) Low-Dimensional Spatiotemporal Dynamics Underlie Cortex-wide Neural Activity. Current Biology : Cb
Panichello MF, DePasquale B, Pillow JW, et al. (2019) Error-correcting dynamics in visual working memory. Nature Communications. 10: 3366
Murthy S, Kane GA, Katchur NJ, et al. (2019) Perineuronal Nets, Inhibitory Interneurons, and Anxiety-Related Ventral Hippocampal Neuronal Oscillations Are Altered by Early Life Adversity. Biological Psychiatry
Panichello MF, Buschman TJ. (2019) Attention and selection in visual working memory Journal of Vision. 19: 245b
Wasmuht DF, Spaak E, Buschman TJ, et al. (2018) Intrinsic neuronal dynamics predict distinct functional roles during working memory. Nature Communications. 9: 3499
Brockett AT, Kane GA, Monari PK, et al. (2018) Evidence supporting a role for astrocytes in the regulation of cognitive flexibility and neuronal oscillations through the Ca2+ binding protein S100β. Plos One. 13: e0195726
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