Add to ORKGWe numerically examine the driven transport of an overdamped self-propelled particle through a two-dimensional array of circular obstacles. A detailed analysis of transport quantifiers (mobility and diffusivity) has been performed for two types of channels, {\it channel I} and {\it channel II}, that respectively correspond to the parallel and diagonal drives with respect to the array axis. Our simulation results show that the signatures of pinning actions and depinning processes in the array of obstacles are manifested through excess diffusion peaks or sudden drops in diffusivity, and abrupt jumps in mobility with varying amplitude of the drive. The underlying depinning mechanisms and the associated threshold driving strength largely depend...
The transport of independent active Brownian particles within a two-dimensional narrow channel, mode...
In the presence of an obstacle, active particles condensate into a surface “wetting” layer due to pe...
We review recent advances in rectification control of artificial microswimmers, also known as Janus ...
Movement is an essential feature of life. It allows organisms to move towards a more favorable envir...
Self-propulsion (SP) is a main feature of active particles (AP), such as bacteria or biological micr...
Brownian transport of self-propelled overdamped microswimmers (like Janus particles) in a two-dimen...
Self-propelled or “active” micrometer scale particles are capable of supplying local mechanical work...
While the collective motion of active particles has been studied extensively, effective strategies t...
International audienceThe diffusion properties of self-propelled particles which move at constant sp...
We study the effect of a driving force F on drift and diffusion of a point Brownian particle in a tu...
We numerically investigate the transport of a suspended overdamped Brownian particle which is driven...
Active colloids are micron-sized particles that self-propel through viscous fluids by converting ene...
We explore the properties of run-and-tumble particles moving in a piecewise-linear "ratchet" potenti...
We study unbiased translocation of a flexible polymer chain through a membrane pore under the influe...
One of the most promising features of active systems is that they can extract energy from their envi...
The transport of independent active Brownian particles within a two-dimensional narrow channel, mode...
In the presence of an obstacle, active particles condensate into a surface “wetting” layer due to pe...
We review recent advances in rectification control of artificial microswimmers, also known as Janus ...
Movement is an essential feature of life. It allows organisms to move towards a more favorable envir...
Self-propulsion (SP) is a main feature of active particles (AP), such as bacteria or biological micr...
Brownian transport of self-propelled overdamped microswimmers (like Janus particles) in a two-dimen...
Self-propelled or “active” micrometer scale particles are capable of supplying local mechanical work...
While the collective motion of active particles has been studied extensively, effective strategies t...
International audienceThe diffusion properties of self-propelled particles which move at constant sp...
We study the effect of a driving force F on drift and diffusion of a point Brownian particle in a tu...
We numerically investigate the transport of a suspended overdamped Brownian particle which is driven...
Active colloids are micron-sized particles that self-propel through viscous fluids by converting ene...
We explore the properties of run-and-tumble particles moving in a piecewise-linear "ratchet" potenti...
We study unbiased translocation of a flexible polymer chain through a membrane pore under the influe...
One of the most promising features of active systems is that they can extract energy from their envi...
The transport of independent active Brownian particles within a two-dimensional narrow channel, mode...
In the presence of an obstacle, active particles condensate into a surface “wetting” layer due to pe...
We review recent advances in rectification control of artificial microswimmers, also known as Janus ...