Efficient simulation of thermally fluctuating biopolymers immersed in fluids on 1-micron, 1-second scales

Efficient simulation of thermally fluctuating biopolymers immersed in fluids on 1-micron, 1-second scales

The combination of fluid-structure interactions with stochasticity, due to thermal fluctuations, remains a challenging problem in computational fluid dynamics. We develop an efficient scheme based on the stochastic immersed boundary method, Stokeslets, and multiple timestepping. We test our method f...

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Publié dans:Journal of computational physics. - 1986. - 386(2019) vom: 01. Juni, Seite 248-263
Auteur principal: Liu, Kai (Auteur)
Autres auteurs: Lowengrub, John, Allard, Jun
Format: Article en ligne
Langue:English
Publié: 2019
Accès à la collection:Journal of computational physics
Sujets:Journal Article Stochasticity Stokes flow actin filament fluid-structure interaction thermal fluctuation
Accès en ligne Volltext