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W2341924561 endingPage "7363" @default.
W2341924561 startingPage "7350" @default.
W2341924561 abstract "Microorganisms naturally move in microstructured fluids. Using the simulation method of multi-particle collision dynamics, we study in two dimensions an undulatory Taylor line swimming in a microchannel and in a cubic lattice of obstacles, which represent simple forms of a microstructured environment. In the microchannel the Taylor line swims at an acute angle along a channel wall with a clearly enhanced swimming speed due to hydrodynamic interactions with the bounding wall. While in a dilute obstacle lattice swimming speed is also enhanced, a dense obstacle lattice gives rise to geometric swimming. This new type of swimming is characterized by a drastically increased swimming speed. Since the Taylor line has to fit into the free space of the obstacle lattice, the swimming speed is close to the phase velocity of the bending wave traveling along the Taylor line. While adjusting its swimming motion within the lattice, the Taylor line chooses a specific swimming direction, which we classify by a lattice vector. When plotting the swimming velocity versus the magnitude of the lattice vector, all our data collapse on a single master curve. Finally, we also report more complex trajectories within the obstacle lattice." @default.
W2341924561 created "2016-06-24" @default.
W2341924561 creator A5005644365 @default.
W2341924561 creator A5018249123 @default.
W2341924561 creator A5033013724 @default.
W2341924561 creator A5081941349 @default.
W2341924561 date "2016-01-01" @default.
W2341924561 modified "2023-10-02" @default.
W2341924561 title "Taylor line swimming in microchannels and cubic lattices of obstacles" @default.
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W2341924561 doi "https://doi.org/10.1039/c6sm01304j" @default.
W2341924561 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27510576" @default.
W2341924561 hasPublicationYear "2016" @default.
W2341924561 type Work @default.
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