I am a Research Fellow in the Flatiron Institute's
Center
for Computational Biology reporting to the Biophysical Modeling Group. I received my PhD in Summer 2022 from the
Courant Institute of
Mathematical Sciences working with Leif Ristroph and Michael Shelley.
I'm interested in lots of fluid dynamic phenomena, especially related to active matter, moving boundary problems, and natural convection.
Publications
- S. Weady.
Variational bounds and nonlinear stability of an active nematic suspension.
Under review, (2024).
(arXiv)
-
S. Maddu, S. Weady, and M. J. Shelley.
Learning fast, accurate, and stable closures of a kinetic theory of an active fluid.
Journal of Computational Physics, (2024).
(arXiv)
(DOI)
-
S. Weady, D. B. Stein, A. Zidovska, and M. J. Shelley.
Conformations, correlations, and instabilities of a flexible fiber in an active fluid.
Physical Review Fluids, (2024).
(arXiv)
(DOI)
-
S. Weady, D. B. Stein, and M. J. Shelley.
Thermodynamically consistent coarse-graining of polar active fluids.
Physical Review Fluids, (2022).
(arXiv)
(DOI)
-
S. Weady, M. J. Shelley, and D. B. Stein.
A fast Chebyshev method for the Bingham closure with application to active nematic suspensions.
Journal of Computational Physics , (2022).
(arXiv)
(DOI)
-
S. Weady, J. Tong, A. Zidovska, and L. Ristroph.
Anomalous convective flows carve pinnacles and scallops in melting ice.
Physical Review Letters, (2022).
(arXiv)
(DOI)
-
S. Weady, S. Agarwal, L. Wilen, and J.S. Wettlaufer.
Circuit bounds on stochastic transport in the Lorenz equations.
Physics Letters A , (2018).
(arXiv)
(DOI)
