Exact solutions for hydrodynamic interactions of two squirming spheres
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Publication:5364502
DOI10.1017/jfm.2016.837zbMath1383.76585arXiv1602.06912OpenAlexW3100159987MaRDI QIDQ5364502
Gareth P. Alexander, Dario Papavassiliou
Publication date: 28 September 2017
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1602.06912
Related Items (12)
Forces and torques on a sphere moving near a dihedral corner in creeping flow ⋮ Two-dimensional study on the motion and interactions of squirmers under gravity in a vertical channel ⋮ Active Stokesian dynamics ⋮ Slow axisymmetric rotation of a soft sphere in a circular cylinder ⋮ Viscous constraints on microorganism approach and interaction ⋮ The Stokes thermocapillary motion of a spherical droplet in the presence of an interface ⋮ Stick-slip squirmers: slip asymmetry can qualitatively change self-swimming characteristics of squirmers ⋮ Exact axisymmetric interaction of phoretically active Janus particles ⋮ Stokesian motion of a spherical particle near a right corner made by tangentially moving walls ⋮ Force moments of an active particle in a complex fluid ⋮ Slow rotation of a spherical particle in an eccentric spherical cavity with slip surfaces ⋮ Low-Reynolds-number rotation of a soft particle inside an eccentric cavity
Cites Work
- Unnamed Item
- Generalized squirming motion of a sphere
- Fundamental singularities of viscous flow. I: The image systems in the vicinity of a stationary no-slip boundary
- On axisymmetric Stokes flow past a torus
- Stokes flow for a stokeslet between two parallel flat plates
- Asymmetrical slow viscous fluid motions caused by the translation or rotation of two spheres. I: The determination of exact solutions for any values of the ratio of radii and separation parameters. II. Asymptotic forms of the solution when the minium clearance between the spheres approaches zero
- Wall effects on self-diffusiophoretic Janus particles: a theoretical study
- A two-dimensional model of low-Reynolds number swimming beneath a free surface
- Hydrodynamics of self-propulsion near a boundary: predictions and accuracy of far-field approximations
- Pair interaction of catalytically active colloids: from assembly to escape
- Locomotion in complex fluids: Integral theorems
- The Stokes flow problem for a class of axially symmetric bodies
- Slow steady rotation of axially symmetric bodies in a viscous fluid
- Hydrodynamic interaction of two swimming model micro-organisms
- The generation of feeding currents by flagellar motions
- THE SLOW MOTION OF A CYLINDER NEXT TO A PLANE WALL
- Boundary Integral and Singularity Methods for Linearized Viscous Flow
- Hydrodynamic Phenomena in Suspensions of Swimming Microorganisms
- Stokes flow due to a Stokeslet in a pipe
- On the rotation of a rotlet or sphere in the presence of an interface
- Induced-charge electro-osmosis
- Surface tank treading: Propulsion of Purcell’s toroidal swimmer
- Slow viscous rotation of an axisymmetric body within a circular cylinder of finite length
- Fluid transport by individual microswimmers
- A Slow motion of viscous liquid caused by a slowly moving solid sphere
- On the slow motion of a sphere parallel to a nearby plane wall
- A spherical envelope approach to ciliary propulsion
- Self propulsion due to oscillations on the surface of a cylinder at low Reynolds number
- A slow motion of viscous liquid caused by the rotation of a solid sphere
- Matched asymptotics for a spherical low-Reynolds-number treadmilling swimmer near a rigid wall
- Analysis of the swimming of microscopic organisms
- The action of waving cylindrical tails in propelling microscopic organisms
- On the squirming motion of nearly spherical deformable bodies through liquids at very small reynolds numbers
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