Influence of surface viscosities on the electrodeformation of a prolate viscous drop
Contaminants and other agents are often present at the interface between two fluids, giving rise to rheological properties such as…
Soft MatterExamples are the organization and dynamics of the nucleus, the structure and assembly of spindles, the positioning and transport of cellular organelles, and fluid-structure problems in biology. To address these, often in close collaboration with experimental collaborators, we build numerical and theoretical models from the ground up, revealing how the known mechanics of individual components give rise to collective behavior. Many such phenomena occur only within dense, highly interacting systems, inaccessible to standard techniques. To probe such regimes requires the development of fast and scalable algorithms for many-component systems, and of coarse-grained models that can be analyzed and simulated.
Contaminants and other agents are often present at the interface between two fluids, giving rise to rheological properties such as…
Soft MatterThe efficient transport of fluids through disordered media requires a thorough understanding of how the driving rate affects two-phase interface…
Physical Review FluidsFinely-tuned enzymatic pathways control cellular processes, and their dysregulation can lead to disease. Creating predictive and interpretable models for these…
Nature Computational ScienceApril 17, 2024
June 21, 2023
January 26, 2023
This is a numerical computation package for various single- and double-layer kernels for Laplace and Stokes operators in boundary integral methods, implemented on top of the highly-optimized kernel independent fast-multipole method package PVFMM.
This is the simulation tool for tracking assemblies of microtubules driven by motor proteins.