ProfessorsProfessors of University of Wisconsin-MadisonJessica M Phillips

Jessica M Phillips

University of Wisconsin-Madison

H-index: 10

North America-United States

About Jessica M Phillips

Jessica M Phillips, With an exceptional h-index of 10 and a recent h-index of 8 (since 2020), a distinguished researcher at University of Wisconsin-Madison, specializes in the field of Cognitive neuroscience, prefrontal cortex, basal ganglia, thalamus.

His recent articles reflect a diverse array of research interests and contributions to the field:

Primate thalamic nuclei select abstract rules and shape prefrontal dynamics

Thalamic deep brain stimulation paradigm to reduce consciousness: Cortico-striatal dynamics implicated in mechanisms of consciousness

Predictive feedback, early sensory representations, and fast responses to predicted stimuli depend on NMDA receptors

Disentangling the influences of multiple thalamic nuclei on prefrontal cortex and cognitive control

Thalamic deep brain stimulation as a paradigm to reduce consciousness: Implications for cortico-striatal dynamics, absence epilepsy and consciousness studies

Consciousness depends on integration between parietal cortex, striatum, and thalamus

Receptors, circuits and neural dynamics for prediction

More than just front or back: Parietal-striatal-thalamic circuits predict consciousness level

Jessica M Phillips Information

University	University of Wisconsin-Madison
Position	Assistant Scientist Department of Psychology
Citations(all)	583
Citations(since 2020)	456
Cited By	231
hIndex(all)	10
hIndex(since 2020)	8
i10Index(all)	10
i10Index(since 2020)	7
Email	Access Email
University Profile Page	University of Wisconsin-Madison
Google Scholar	View Google Scholar Profile

Jessica M Phillips Skills & Research Interests

Cognitive neuroscience

prefrontal cortex

basal ganglia

thalamus

Top articles of Jessica M Phillips

Title	Journal	Author(s)	Publication Date
Primate thalamic nuclei select abstract rules and shape prefrontal dynamics	bioRxiv	Jessica M Phillips Mohsen Afrasiabi Niranjan A Kambi Michelle J Redinbaugh Summer Steely ...	2024
Thalamic deep brain stimulation paradigm to reduce consciousness: Cortico-striatal dynamics implicated in mechanisms of consciousness	PLoS computational biology	Michelle J Redinbaugh Mohsen Afrasiabi Jessica M Phillips Niranjan A Kambi Sounak Mohanta ...	2022/7/11
Predictive feedback, early sensory representations, and fast responses to predicted stimuli depend on NMDA receptors	Journal of Neuroscience	Sounak Mohanta Mohsen Afrasiabi Cameron P Casey Sean Tanabe Michelle J Redinbaugh ...	2021/12/8
Disentangling the influences of multiple thalamic nuclei on prefrontal cortex and cognitive control	Progress in neurobiology	Sima Mofakham Yuhao Liu Asher Hensley Jordan R Saadon J Adachi ...	2022/1
Thalamic deep brain stimulation as a paradigm to reduce consciousness: Implications for cortico-striatal dynamics, absence epilepsy and consciousness studies	bioRxiv	Michelle J Redinbaugh Mohsen Afrasiabi Jessica M Phillips Niranjan A Kambi Sounak Mohanta ...	2021/7/27
Consciousness depends on integration between parietal cortex, striatum, and thalamus	Cell systems	Mohsen Afrasiabi Michelle J Redinbaugh Jessica M Phillips Niranjan A Kambi Sounak Mohanta ...	2021/4/21
Receptors, circuits and neural dynamics for prediction	Available at SSRN 3659396	Sounak Mohanta Mohsen Afrasiabi Cameron Casey Sean Tanabe Michelle Jordan Redinbaugh ...	2021
More than just front or back: Parietal-striatal-thalamic circuits predict consciousness level	BioRxiv	Mohsen Afrasiabi Michelle J Redinbaugh Jessica M Phillips Niranjan A Kambi Sounak Mohanta ...	2020/4/9
Thalamus modulates consciousness via layer-specific control of cortex	Neuron	Michelle J Redinbaugh Jessica M Phillips Niranjan A Kambi Sounak Mohanta Samantha Andryk ...	2020/4/8