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Prof. Saintillian’s research centers on the study of fundamental fluid mechanics problems involving complex fluids and complex flows, typically on small scales. His team use a combination of modeling, theory, and numerical simulations to study the dynamics and properties of flows involving a microstructure (such as particles, macromolecules, swimming micro-organisms, biopolymers) suspended in and interacting with a viscous fluid, as arise in many biophysical, environmental, and technological processes. He is particularly interested in fluid flow problems in which complexity arises from: multiphysics phenomena in which the interactions of various effects (mechanical, electric, chemical, or thermal) lead to complex dynamics; the effects of long-ranged hydrodynamic interactions on fluctuations and pattern formation; the coupling of a large number of degrees of freedom (such as particle configurations). Many of the current problems of interest are motivated by simple experiments, biological phenomena, or engineering applications, and their solution often involves applied mathematics, large-scale computation, and comparisons to experimental data.
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PHYSICAL REVIEW FLUIDSno. 1 (2024)
Soft matterno. 35 (2023): 6825-6837
PHYSICAL REVIEW FLUIDSno. 11 (2023)
arXiv (Cornell University) (2023)
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arXiv (Cornell University)no. 6-1 (2023): 064608-064608
bioRxiv (Cold Spring Harbor Laboratory) (2023)
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