We implement microfabricated boomerang particles with unequal arm lengths as a model for nonsymmetric particles and study their Brownian motion in a quasi-two-dimensional geometry by using high-precision single-particle motion tracking. We show that because of the coupling between translation and rotation, the mean squared displacements of a single asymmetric boomerang particle exhibit a nonlinear crossover from short-time faster to long-time slower diffusion, and the mean displacements for fixed initial orientation are nonzero and saturate out at long times. The measured anisotropic diffusion coefficients versus the tracking point position indicate that there exists one unique point, i.e., the center of hydrodynamic stress (CoH), at which ...
We study the spatial dependence of the mobility of microparticles diffusing close to an edge of a sq...
Unlike passive Brownian particles, active Brownian particles, also known as microswimmers, propel th...
Cataloged from PDF version of article.Unlike passive Brownian particles, active Brownian particles, ...
We investigate the Brownian motion of boomerang colloidal particles confined between two glass plate...
We studied the Brownian motion of isolated ellipsoidal particles in water confined to two dimensions...
Tracer particles immersed in suspensions of biological microswimmers such as E. coli or C. reinhardt...
Motion of nanoparticles suspended in fluids are dominated by Brownian diffusiona physical property w...
We combine two-photon lithography and optical tweezers to investigate the Brownian fluctuations and ...
Combining experiments on active colloids, whose propulsion velocity can be controlled via a feedback...
Colloidal particles equipped with platinum patches can establish chemical gradients in H O -enriche...
We review the results of Brownian Dynamics simulations of colloidal particles in external fields con...
Micron-sized self-propelled (active) particles can be considered as model systems for characterizing...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
An anisotropic macromolecule confined between two surfaces displays Brownian motion predominantly in...
We study the spatial dependence of the mobility of microparticles diffusing close to an edge of a sq...
Unlike passive Brownian particles, active Brownian particles, also known as microswimmers, propel th...
Cataloged from PDF version of article.Unlike passive Brownian particles, active Brownian particles, ...
We investigate the Brownian motion of boomerang colloidal particles confined between two glass plate...
We studied the Brownian motion of isolated ellipsoidal particles in water confined to two dimensions...
Tracer particles immersed in suspensions of biological microswimmers such as E. coli or C. reinhardt...
Motion of nanoparticles suspended in fluids are dominated by Brownian diffusiona physical property w...
We combine two-photon lithography and optical tweezers to investigate the Brownian fluctuations and ...
Combining experiments on active colloids, whose propulsion velocity can be controlled via a feedback...
Colloidal particles equipped with platinum patches can establish chemical gradients in H O -enriche...
We review the results of Brownian Dynamics simulations of colloidal particles in external fields con...
Micron-sized self-propelled (active) particles can be considered as model systems for characterizing...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
An anisotropic macromolecule confined between two surfaces displays Brownian motion predominantly in...
We study the spatial dependence of the mobility of microparticles diffusing close to an edge of a sq...
Unlike passive Brownian particles, active Brownian particles, also known as microswimmers, propel th...
Cataloged from PDF version of article.Unlike passive Brownian particles, active Brownian particles, ...