Folgen
Linnea Metcalf Lemma
Linnea Metcalf Lemma
Postdoctoral Fellow, Bioengineering, Princeton University
Bestätigte E-Mail-Adresse bei princeton.edu
Titel
Zitiert von
Zitiert von
Jahr
Statistical properties of autonomous flows in 2D active nematics
LM Lemma, SJ DeCamp, Z You, L Giomi, Z Dogic
Soft matter 15 (15), 3264-3272, 2019
832019
Machine learning active-nematic hydrodynamics
J Colen, M Han, R Zhang, SA Redford, LM Lemma, L Morgan, ...
Proceedings of the National Academy of Sciences 118 (10), e2016708118, 2021
682021
Machine learning forecasting of active nematics
Z Zhou, C Joshi, R Liu, MM Norton, L Lemma, Z Dogic, MF Hagan, ...
Soft matter 17 (3), 738-747, 2021
392021
Multiscale microtubule dynamics in active nematics
LM Lemma, MM Norton, AM Tayar, SJ DeCamp, SA Aghvami, S Fraden, ...
Physical review letters 127 (14), 148001, 2021
322021
Spatio-temporal patterning of extensile active stresses in microtubule-based active fluids
LM Lemma, M Varghese, TD Ross, M Thomson, A Baskaran, Z Dogic
PNAS nexus 2 (5), pgad130, 2023
232023
Data-driven discovery of active nematic hydrodynamics
C Joshi, S Ray, LM Lemma, M Varghese, G Sharp, Z Dogic, A Baskaran, ...
Physical review letters 129 (25), 258001, 2022
222022
Defect-mediated dynamics of coherent structures in active nematics
M Serra, L Lemma, L Giomi, Z Dogic, L Mahadevan
Nature Physics 19 (9), 1355-1361, 2023
132023
Assembling microtubule-based active matter
AM Tayar, LM Lemma, Z Dogic
Microtubules: Methods and Protocols, 151-183, 2022
122022
Competing instabilities reveal how to rationally design and control active crosslinked gels
B Najma, M Varghese, L Tsidilkovski, L Lemma, A Baskaran, G Duclos
Nature communications 13 (1), 6465, 2022
102022
Link Morgan, Paul V. Ruijgrok, Raymond Adkins, Zev Bryant, Zvonimir Dogic, Margaret L. Gardel, Juan J. de Pablo, and Vincenzo Vitelli
J Colen, M Han, R Zhang, SA Redford, LM Lemma
Machine learning active-nematic hydrodynamics. Proceedings of the National …, 2021
92021
Light-activated microtubule-based two-dimensional active nematic
Z Zarei, J Berezney, A Hensley, L Lemma, N Senbil, Z Dogic, S Fraden
Soft matter 19 (35), 6691-6699, 2023
82023
Anisotropic colloidal transport and periodic stick-slip motion in cholesteric finger textures
K Chen, LP Metcalf, DP Rivas, DH Reich, RL Leheny
Soft Matter 11 (21), 4189-4196, 2015
82015
Multiscale dynamics in active nematics
LM Lemma, MM Norton, SJ DeCamp, SA Aghvami, S Fraden, MF Hagan, ...
arXiv, 2006
52006
Dual antagonistic role of motor proteins in fluidizing active networks
B Najma, M Varghese, L Tsidilkovski, L Lemma, A Baskaran, G Duclos
arXiv preprint arXiv:2112.11364, 2021
42021
Light-activated microtubule-based 2D active nematic
Z Zarei, J Berezney, A Hensley, L Lemma, N Senbil, Z Dogic, S Fraden
arXiv preprint arXiv:2303.02945, 2023
32023
Structure and dynamics of motor-driven microtubule bundles
B Lemma, LM Lemma, SC Ems-McClung, CE Walczak, Z Dogic, ...
Soft Matter, 2024
22024
Statistical properties and optogenetic control of active turbulence
LM Lemma
Brandeis University, 2022
12022
Deep-learning Optical Flow Outperforms PIV in Obtaining Velocity Fields from Active Nematics
PN Tran, S Ray, L Lemma, Y Li, R Sweeney, A Baskaran, Z Dogic, ...
arXiv preprint arXiv:2404.15497, 2024
2024
Deep learning-based optical flow outperforms PIV in obtaining velocity fields from experimental videos
P Tran, M Hagan, Z Dogic, P Hong, A Baskaran, L Lemma, S Ray
Bulletin of the American Physical Society, 2024
2024
Deep-learning optical flow for measuring velocity fields from experimental data
PN Tran, S Ray, L Lemma, Y Li, R Sweeney, A Baskaran, Z Dogic, ...
Soft matter 20 (36), 7246-7257, 2024
2024
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20