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Divyansh Mittal
ORCID
Publication Activity (10 Years)
Years Active: 2021-2022
Publications (10 Years): 7
Top Topics
High Frequency
Induced Apoptosis
Stem Cells
Endoplasmic Reticulum Stress
Top Venues
Proceedings of the National Academy of Sciences of the United States of America
eLife
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This page only lists publications with an associated author ORCID identifier.
Publications
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Divyansh Mittal
,
Rishikesh Narayanan
Heterogeneous stochastic bifurcations explain intrinsic oscillatory patterns in entorhinal cortical stellate cells.
Proceedings of the National Academy of Sciences of the United States of America
119 (52) (2022)
Divyansh Mittal
,
Rishikesh Narayanan
Heterogeneous stochastic bifurcations explain intrinsic oscillatory patterns in entorhinal cortical stellate cells.
Proceedings of the National Academy of Sciences of the United States of America
119 (52) (2022)
Divyansh Mittal
,
Rishikesh Narayanan
Heterogeneous stochastic bifurcations explain intrinsic oscillatory patterns in entorhinal cortical stellate cells.
Proceedings of the National Academy of Sciences of the United States of America
119 (52) (2022)
Lara Urban
,
Mariana De Niz
,
Florencia Fernández-Chiappe
,
Hedyeh Ebrahimi
,
Laura K M Han
,
Devang Mehta
,
Regina Mencia
,
Divyansh Mittal
,
Elizabeth Akinyi Ochola
,
Carolina Paz Quezada
,
Facundo Romani
,
Lana Sinapayen
,
Andy Tay
,
Aalok Varma
,
Lamis Yahia Mohamed Elkheir
eLife's new model and its impact on science communication.
eLife
11 (2022)
Divyansh Mittal
,
Rishikesh Narayanan
Heterogeneous stochastic bifurcations explain intrinsic oscillatory patterns in entorhinal cortical stellate cells.
Proceedings of the National Academy of Sciences of the United States of America
119 (52) (2022)
Divyansh Mittal
,
Rishikesh Narayanan
Heterogeneous stochastic bifurcations explain intrinsic oscillatory patterns in entorhinal cortical stellate cells.
Proceedings of the National Academy of Sciences of the United States of America
119 (52) (2022)
Divyansh Mittal
,
Rishikesh Narayanan
Resonating neurons stabilize heterogeneous grid-cell networks.
eLife
10 (2021)