On the basis of the linear hydrodynamic equations, we present an analytical theory for the low-Reynolds-number motion of a solid particle moving inside a larger spherical elastic cavity which can be seen as a model system for a fluid vesicle. In the particular situation where the particle is concentric with the cavity, we use the stream function technique to find exact analytical solutions of the fluid motion equations on both sides of the elastic cavity. In this particular situation, we find that the solution of the hydrodynamic equations is solely determined by membrane shear properties and that bending does not play a role. For an arbitrary position of the solid particle within the spherical cavity, we employ the image solution technique...
Using a fully analytical theory, we compute the leading-order corrections to the translational, rota...
Fluid-resistance limited transport of vesicles through narrow constrictions is a recurring theme in ...
International audienceVesicles are sacs made of a phospholipid bilayer, and they mimic the cytoplasm...
A microswimmer placed inside of a passive lamellar vesicle can hydrodynamically induce directed moti...
Non-colloidal dynamics of a single particle suspended in a low-Reynolds-number fluid under spherical...
International audienceThe slow viscous and either imposed or gravity-driven migration of a solid arb...
Research on solid particle flows has been quite intensive in the past decade. The difficulties assoc...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
International audienceThe mobility matrix of a spherical particle moving in a spherical cavity, fill...
The velocity potential in a perfect fluid is found for a sphere which is translating in a direction ...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
The diffusion in and rheology of hydrodynamically interacting colloids confined by a spherical cavit...
The deformation and cross-streamline migration of an initially spherical neo-Hookean elastic particl...
We study the motion of a small solid particle (a few micrometers in size) attached to the membrane ...
We analyze the problem of vesicle migration in haptotaxis (a motion directed by an adhesion gradient...
Using a fully analytical theory, we compute the leading-order corrections to the translational, rota...
Fluid-resistance limited transport of vesicles through narrow constrictions is a recurring theme in ...
International audienceVesicles are sacs made of a phospholipid bilayer, and they mimic the cytoplasm...
A microswimmer placed inside of a passive lamellar vesicle can hydrodynamically induce directed moti...
Non-colloidal dynamics of a single particle suspended in a low-Reynolds-number fluid under spherical...
International audienceThe slow viscous and either imposed or gravity-driven migration of a solid arb...
Research on solid particle flows has been quite intensive in the past decade. The difficulties assoc...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
International audienceThe mobility matrix of a spherical particle moving in a spherical cavity, fill...
The velocity potential in a perfect fluid is found for a sphere which is translating in a direction ...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
The diffusion in and rheology of hydrodynamically interacting colloids confined by a spherical cavit...
The deformation and cross-streamline migration of an initially spherical neo-Hookean elastic particl...
We study the motion of a small solid particle (a few micrometers in size) attached to the membrane ...
We analyze the problem of vesicle migration in haptotaxis (a motion directed by an adhesion gradient...
Using a fully analytical theory, we compute the leading-order corrections to the translational, rota...
Fluid-resistance limited transport of vesicles through narrow constrictions is a recurring theme in ...
International audienceVesicles are sacs made of a phospholipid bilayer, and they mimic the cytoplasm...