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W2888961036 abstract "The artificial microswimmer is a cutting-edge technology with applications in drug delivery and micro-total-analysis systems. The flow field around a microswimmer can be regarded as Stokes flow, in which reciprocal body deformation cannot induce migration. In this study, we propose a microcapsule swimmer that undergoes amoeboidlike shape deformations under fluid oscillation conditions. This is a study on the propulsion principle using a capsule with a solid membrane, and one of only a few studies using fluid oscillation. The microswimmer consists of an elastic capsule containing fluid and a rigid sphere. Opposing forces are generated when fluid oscillations are applied, because the densities of the internal fluid and sphere are different. The opposing forces induce nonreciprocal body deformation, which leads to migration of the microswimmer under Stokes flow conditions. Using numerical simulations, we found that the microswimmer propels itself in one of two modes, i.e., stroke swimming or drag swimming. We discuss the feasibility of the proposed microswimmer and show that the most efficient swimmer can migrate tens of micrometers per second. These findings pave the way for future artificial microswimmer designs." @default.
W2888961036 created "2018-09-07" @default.
W2888961036 creator A5032039715 @default.
W2888961036 creator A5040173920 @default.
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W2888961036 date "2018-08-27" @default.
W2888961036 modified "2023-09-25" @default.
W2888961036 title "Passive swimming of a microcapsule in vertical fluid oscillation" @default.
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W2888961036 doi "https://doi.org/10.1103/physreve.98.023108" @default.
W2888961036 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30253563" @default.
W2888961036 hasPublicationYear "2018" @default.
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