A spherical envelope approach to ciliary propulsion

Problems and progress in microswimming, Tank-treading as a means of propulsion in viscous shear flows, Microfluidic propulsion by the metachronal beating of magnetic artificial cilia: a numerical analysis, Lubrication theory and boundary element hybrid method for calculating hydrodynamic forces between particles in near contact, Large-scale simulation of steady and time-dependent active suspensions with the force-coupling method, Modelling and simulation of 2D stokesian Squirmers, BIOLOGICAL FLUID MECHANICS UNDER THE MICROSCOPE: A TRIBUTE TO JOHN BLAKE, Active Stokesian dynamics, Hydrodynamics of self-propulsion near a boundary: predictions and accuracy of far-field approximations, Unsteady swimming of small organisms, Modeling simple locomotors in Stokes flow, Inertial torque on a squirmer, Swimming and pumping by helical waves in viscous and viscoelastic fluids, Boundary integral equation analysis for suspension of spheres in Stokes flow, Propulsion in a viscoelastic fluid, Mathematical modelling of pressure-driven micropolar biological flow due to metachronal wave propulsion of beating cilia, An optimal control approach to ciliary locomotion, Hydrodynamics of an inertial squirmer and squirmer dumbbell in a tube, Unsteady chiral swimmer and its response to a chemical gradient, Locomotion in complex fluids: Integral theorems, Mathematical model for unsteady ciliary propulsion, Activity-induced propulsion of a vesicle, Collective dynamics and rheology of confined phoretic suspensions, Optimizing low-Reynolds-number predation via optimal control and reinforcement learning, Stokesian swimming of a prolate spheroid at low Reynolds number, Anisotropic stresslet and rheology of stick–slip Janus spheres, Simple model of cell crawling, Physics of rheologically enhanced propulsion: Different strokes in generalized Stokes, Anisotropic swimming and reorientation of an undulatory microswimmer in liquid-crystalline polymers, A numerical method for suspensions of articulated bodies in viscous flows, Locomotion inside a surfactant-laden drop at low surface Péclet numbers, Viscous constraints on microorganism approach and interaction, An active particle in a complex fluid, Motion of a model swimmer near a weakly deforming interface, Hydrodynamic interaction of two deformable torque swimmers, Near-wall hydrodynamic slip triggers swimming state transition of micro-organisms, Controllability of low Reynolds numbers swimmers of ciliate type, Instantaneous swimming velocity of a body at low Reynolds number, Swimming sheet in a viscosity-stratified fluid, Hydrodynamics of micro-swimmers in films, Batchelor Prize Lecture Fluid dynamics at the scale of the cell, Arbitrary axisymmetric steady streaming: flow, force and propulsion, Swimming with swirl in a viscoelastic fluid, Mathematical model for the propulsion of a ciliated micro-organism with differential spin, Squirmers with swirl: a model forVolvoxswimming, Pair interaction of catalytically active colloids: from assembly to escape, Mathematical model for the ciliary-induced transport of seminal liquids through the ductuli efferentes, Boundary behaviours of \textit{Leishmania mexicana}: a hydrodynamic simulation study, Orientational relaxation time of bottom-heavy squirmers in a semi-dilute suspension, Hydrodynamics of an inertial active droplet, Motion of an inertial squirmer in a density stratified fluid, \textsc{waLBerla}: a block-structured high-performance framework for multiphysics simulations, A note on swimming using internally generated traveling waves, Self-propulsion near the onset of Marangoni instability of deformable active droplets, Hydrodynamic interaction of two unsteady model microorganisms, Enhanced velocity fluctuations in interacting swimmer suspensions, Optimal slip velocities of micro-swimmers with arbitrary axisymmetric shapes, Stirring by swimmers in confined microenvironments, Many-body microhydrodynamics of colloidal particles with active boundary layers, Non-Newtonian effects on the slip and mobility of a self-propelling active particle, Swimming of microorganisms in quasi-two-dimensional membranes, The many behaviors of deformable active droplets, Optimal ciliary locomotion of axisymmetric microswimmers, Numerical Computation of Doubly-Periodic Stokes Flow Bounded by a Plane with Applications to Nodal Cilia, Geometry of self-propulsion at low Reynolds number, Efficiencies of self-propulsion at low Reynolds number, Generalized squirming motion of a sphere, Micro-swimming without flagella: propulsion by internal structures, Mathematical embryology: the fluid mechanics of nodal cilia, A porous prolate-spheroidal model for ciliated micro-organisms, Slender axisymmetric Stokesian swimmers, Heat transfer analysis of viscoelastic fluid flow due to metachronal wave of cilia, Self-propulsion of \(N\)-hinged `animats' at low Reynolds number, Development of coherent structures in concentrated suspensions of swimming model micro-organisms, Squirming motion in a Brinkman medium, Stokes flow for a stokeslet between two parallel flat plates, Optimal swimmers can be pullers, pushers or neutral depending on the shape, Electrophoresis in dilute polymer solutions, The hydrodynamics of an active squirming particle inside of a porous container, Active swimmers interacting with stratified fluids during collective vertical migration, Geometric phase methods with Stokes theorem for a general viscous swimmer, Stirring by multiple cylinders in potential flow, A squirmer across Reynolds numbers, Swimming sheet in a density-stratified fluid, Swimming mediated by ciliary beating: comparison with a squirmer model, Stirring by squirmers, Hydrochemical interactions of phoretic particles: a regularized multipole framework, On efficiency calculations for nonholonomic locomotion problems: An application to microswimming, Flow in tubules due to ciliary activity, Analytical study for swimmers in a channel, Translating and squirming cylinders in a viscoplastic fluid, A scalable computational platform for particulate Stokes suspensions, Optimal feeding is optimal swimming for all Péclet numbers, An investigation of non-Newtonian fluid flow due to metachronal beating of cilia in a tube, Biomathematical analysis of carbon nanotubes due to ciliary motion, Heat transfer analysis of bi-viscous ciliary motion fluid, Mathematical analysis of flow of non-Newtonian fluid due to metachronal beating of cilia in a tube and its physiological applications, Phoretic self-propulsion at finite Péclet numbers, Evaluation of spherical shapes swimming efficiency at low Reynolds number with applications to some biological problems, Active suspensions in thin films: nutrient uptake and swimmer motion, Cargo carrying with an inertial squirmer in a Newtonian fluid, Lattice Boltzmann Simulations of Two Linear Microswimmers Using the Immersed Boundary Method, Two-dimensional study on the motion and interactions of squirmers under gravity in a vertical channel, Hydrodynamic force on a small squirmer moving with a time-dependent velocity at small Reynolds numbers, Flow-induced diffusion in a packed lattice of squirmers, Spontaneous locomotion of a symmetric squirmer, Influence of heterogeneity or shape on the locomotion of a caged squirmer, Swimming of an inertial squirmer and squirmer dumbbell through a viscoelastic fluid, Slippery rheotaxis: new regimes for guiding wall-bound microswimmers, Stick-slip squirmers: slip asymmetry can qualitatively change self-swimming characteristics of squirmers, Self propulsion due to oscillations on the surface of a cylinder at low Reynolds number, Heat transfer analysis of MHD viscous fluid in a ciliated tube with entropy generation, Exact solutions for hydrodynamic interactions of two squirming spheres, From active stresses and forces to self-propulsion of droplets, Unsteady feeding and optimal strokes of model ciliates, A spherical squirming swimmer in unsteady Stokes flow, Fluid transport by individual microswimmers, Low-Reynolds-number swimming in a capillary tube, Squirmers with swirl at low Weissenberg number, Rheology of a concentrated suspension of spherical squirmers: monolayer in simple shear flow, The effect of particle geometry on squirming through a shear-thinning fluid, Squirmer locomotion in a yield stress fluid