Using a fully analytical theory, we compute the leading-order corrections to the translational, rotational and translation–rotation coupling mobilities of an arbitrary axisymmetric particle immersed in a Newtonian fluid moving near an elastic cell membrane that exhibits resistance towards stretching and bending. The frequency-dependent mobility corrections are expressed as general relations involving separately the particle’s shape-dependent bulk mobility and the shape-independent parameters such as the membrane–particle distance, the particle orientation and the characteristic frequencies associated with shearing and bending of the membrane. This makes the equations applicable to an arbitrary-shaped axisymmetric particle provided that its ...
Rheological properties of the suspension flow, especially effective viscosity, partly depend on spat...
The properties of reinforced polymers strongly depend on the microstructural state, that is, the ori...
We investigate through numerical simulations the dynamics of a neo-Hookean elastic prolate spheroid ...
International audienceThe mobility matrix of a spherical particle moving in a spherical cavity, fill...
The translational motion of a solid sphere near a deformable fluid interface is studied in the low R...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
On the basis of the linear hydrodynamic equations, we present an analytical theory for the low-Reyno...
The lateral mobility of membrane inclusions is essential in biological processes involving membrane-...
Hydrodynamic interactions with confining boundaries often lead to drastic changes in the diffusive b...
This thesis focuses on problems in microhydrodynamics involving both rigid and deformable particles....
We present an outline of a method to determine the components of the grand mobility matrix of a syst...
The transport of macromolecules and nanoscopic particles to a target cellular site is a crucial aspe...
International audienceThis paper examines the low-Reynolds-number migration of an insulating and rig...
Rheological properties of the suspension flow, especially effective viscosity, partly depend on spat...
The properties of reinforced polymers strongly depend on the microstructural state, that is, the ori...
We investigate through numerical simulations the dynamics of a neo-Hookean elastic prolate spheroid ...
International audienceThe mobility matrix of a spherical particle moving in a spherical cavity, fill...
The translational motion of a solid sphere near a deformable fluid interface is studied in the low R...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
On the basis of the linear hydrodynamic equations, we present an analytical theory for the low-Reyno...
The lateral mobility of membrane inclusions is essential in biological processes involving membrane-...
Hydrodynamic interactions with confining boundaries often lead to drastic changes in the diffusive b...
This thesis focuses on problems in microhydrodynamics involving both rigid and deformable particles....
We present an outline of a method to determine the components of the grand mobility matrix of a syst...
The transport of macromolecules and nanoscopic particles to a target cellular site is a crucial aspe...
International audienceThis paper examines the low-Reynolds-number migration of an insulating and rig...
Rheological properties of the suspension flow, especially effective viscosity, partly depend on spat...
The properties of reinforced polymers strongly depend on the microstructural state, that is, the ori...
We investigate through numerical simulations the dynamics of a neo-Hookean elastic prolate spheroid ...