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W2998987218 abstract "Micro-swimmers such as spermatozoa are able to efficiently navigate through viscous fluids that contain a sparse network of fibers or other macromolecules. We utilize the Brinkman equation to capture the fluid dynamics of sparse and stationary obstacles that are represented via a single resistance parameter. The method of regularized Brinkmanlets is utilized to solve for the fluid flow and motion of the swimmer in 2-dimensions when assuming the flagellum (tail) propagates a curvature wave. Extending previous studies, we investigate the dynamics of swimming when varying the resistance parameter, head or cell body radius, and preferred beat form parameters. For a single swimmer, we determine that increased swimming speed occurs for a smaller cell body radius and smaller fluid resistance. Progression of swimmers exhibits complex dynamics when considering hydrodynamic interactions; attraction of two swimmers is a robust phenomenon for smaller beat amplitude of the tail and smaller fluid resistance. Wall attraction is also observed, with a longer time scale of wall attraction with a larger resistance parameter." @default.
W2998987218 created "2020-01-23" @default.
W2998987218 creator A5015678609 @default.
W2998987218 creator A5063653571 @default.
W2998987218 date "2020-01-19" @default.
W2998987218 modified "2023-09-23" @default.
W2998987218 title "Dynamics of Swimmers in Fluids with Resistance" @default.
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W2998987218 doi "https://doi.org/10.3390/fluids5010014" @default.
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