Evolution equations for the orientation distribution of axisymmetric particles in periodic flows are derived in the regime of small but non-zero Brownian rotations. The equations are based on a multiple time scale approach that allows fast computation of the relaxation processes leading to statistical equilibrium. The approach has been applied to the calculation of the effective viscosity of a thin disk suspension in gravity waves
The dynamics (rotation and stabilization) of single irregular particles that are constrained to rota...
This thesis concerns the angular motion of small particles suspended in fluid flows. A small particl...
Combining experiments on active colloids, whose propulsion velocity can be controlled via a feedback...
International audienceThe orientational dynamics of weakly inertial axisymmetric particles in a stea...
AbstractThe orientational dynamics of weakly inertial axisymmetric particles in a steady flow is inv...
We review results obtained over a period of about a decade on a class of technologically and fundame...
We consider the Brownian motion of a small spherical particle in viscoelastic flow. Even in absence ...
The problem of determining the orientation distribution function for rigid particles of arbitrary sh...
We study a popular kinetic model introduced by Saintillan and Shelley for the dynamics of suspension...
We present a novel approach to computing the orientation moments and rheological properties of a dil...
International audienceSuspension of anisotropic particles can be found in various applications, e.g....
<p>We calculate the stress response, or rheology, of a micro-mechanical model suspension of rigid, B...
The classical theory by Jeffery predicts that, in the absence of Brownian fluctuations, a thin rigid...
International audienceThe first works devoted to the evolution of elongated particles are mainly due...
A Langevin approach to computing the orientation moments of a dilute suspension of spheroids in a si...
The dynamics (rotation and stabilization) of single irregular particles that are constrained to rota...
This thesis concerns the angular motion of small particles suspended in fluid flows. A small particl...
Combining experiments on active colloids, whose propulsion velocity can be controlled via a feedback...
International audienceThe orientational dynamics of weakly inertial axisymmetric particles in a stea...
AbstractThe orientational dynamics of weakly inertial axisymmetric particles in a steady flow is inv...
We review results obtained over a period of about a decade on a class of technologically and fundame...
We consider the Brownian motion of a small spherical particle in viscoelastic flow. Even in absence ...
The problem of determining the orientation distribution function for rigid particles of arbitrary sh...
We study a popular kinetic model introduced by Saintillan and Shelley for the dynamics of suspension...
We present a novel approach to computing the orientation moments and rheological properties of a dil...
International audienceSuspension of anisotropic particles can be found in various applications, e.g....
<p>We calculate the stress response, or rheology, of a micro-mechanical model suspension of rigid, B...
The classical theory by Jeffery predicts that, in the absence of Brownian fluctuations, a thin rigid...
International audienceThe first works devoted to the evolution of elongated particles are mainly due...
A Langevin approach to computing the orientation moments of a dilute suspension of spheroids in a si...
The dynamics (rotation and stabilization) of single irregular particles that are constrained to rota...
This thesis concerns the angular motion of small particles suspended in fluid flows. A small particl...
Combining experiments on active colloids, whose propulsion velocity can be controlled via a feedback...