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Payam Rowghanian
Payam Rowghanian
Postdoctoral Scholar, University of California Santa Barbara
Verified email at nyu.edu
Title
Cited by
Cited by
Year
A fluid-to-solid jamming transition underlies vertebrate body axis elongation
A Mongera, P Rowghanian, HJ Gustafson, E Shelton, DA Kealhofer, ...
Nature 561 (7723), 401-405, 2018
5442018
In vivo quantification of spatially varying mechanical properties in developing tissues
F Serwane, A Mongera, P Rowghanian, DA Kealhofer, AA Lucio, ...
Nature methods 14 (2), 181-186, 2017
3122017
Force-driven polymer translocation through a nanopore: An old problem revisited
P Rowghanian, AY Grosberg
The Journal of Physical Chemistry B 115 (48), 14127-14135, 2011
1112011
Dynamics of ferrofluid drop deformations under spatially uniform magnetic fields
P Rowghanian, CD Meinhart, O Campàs
Journal of Fluid Mechanics 802, 245-262, 2016
672016
Electrophoretic capture of a DNA chain into a nanopore
P Rowghanian, AY Grosberg
Physical Review E 87 (4), 042722, 2013
472013
Mechanical control of tissue shape and morphogenetic flows during vertebrate body axis elongation
SP Banavar, EK Carn, P Rowghanian, G Stooke-Vaughan, S Kim, ...
Scientific reports 11 (1), 8591, 2021
332021
Propagation of tension along a polymer chain
P Rowghanian, AY Grosberg
Physical Review E 86 (1), 011803, 2012
332012
Electrophoresis of a DNA coil near a nanopore
P Rowghanian, AY Grosberg
Physical Review E 87 (4), 042723, 2013
222013
Mechanics of the cellular microenvironment as probed by cells in vivo during zebrafish presomitic mesoderm differentiation
A Mongera, M Pochitaloff, HJ Gustafson, GA Stooke-Vaughan, ...
Nature Materials 22 (1), 135-143, 2023
192023
Self-Supervised Goal-Conditioned Pick and Place
CM Devin, P Rowghanian, C Vigorito, W Richards, K Rohanimanesh
https://rss2020vlrrm.github.io/papers/13_CameraReadySubmission_rssclrrm_13.pdf, 2020
102020
Non-equilibrium membrane homeostasis in expanding cellular domains
P Rowghanian, O Campas
Biophysical Journal 113 (1), 132-137, 2017
52017
Mechanics of the cellular microenvironment as perceived by cells in vivo
A Mongera, M Pochitaloff, HJ Gustafson, GA Stooke-Vaughan, ...
bioRxiv, 2021.01. 04.425259, 2021
32021
Two cases of reciprocal relations for electric and hydrodynamic currents: A rigid polymer in a nano-channel and a polyelectrolyte gel
P Rowghanian, AY Grosberg
The Journal of Chemical Physics 139 (2), 2013
32013
Dynamics and shapes of ferrofluid drops under spatially uniform magnetic fields
P Rowghanian, F Serwane, D Kealhofer, CD Meinhart, O Campas
APS Division of Fluid Dynamics Meeting Abstracts, M37. 001, 2016
2016
Characterizing the mechanical behavior of the zebrafish germ layers
D Kealhofer, F Serwane, A Mongera, P Rowghanian, A Lucio, O Campàs
APS March Meeting Abstracts 2016, M1. 197, 2016
2016
Direct measurement of local material properties within living embryonic tissues
F Serwane, A Mongera, P Rowghanian, D Kealhofer, A Lucio, ...
APS March Meeting Abstracts 2016, V37. 002, 2016
2016
Direct quantification of tissue mechanics in vivo and in situ
F Serwane, A Mongera, P Rowghanian, D Kealhofer, A Lucio, ...
MOLECULAR BIOLOGY OF THE CELL 26, 2015
2015
Electrophoretic Capture and Passage of a Polyelectrolyte Molecule through a Nanopore
P Rowghanian
New York University, 2013
2013
Force-Driven Translocation of a Polymer through a Nanopore
P Rowghanian, A Grosberg
APS March Meeting Abstracts 2012, B44. 005, 2012
2012
DNA Translocation through a Nanopore
P Rowghanian, AY Grosberg
Kavli Institute for Theoretical Physics Conference: Soft Matter Physics …, 2011
2011
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Articles 1–20