We highlight the unique wavelike character observed in the relaxation dynamics of active systems via a Smoluchowski based theoretical framework and Brownian dynamic simulations. Persistent swimming motion results in wavelike dynamics until the advective swim displacements become sufficiently uncorrelated, at which point the motion becomes a random walk process characterized by a swim diffusivity, D^(swim) = U²₀τ_R/[d(d−1)], dependent on the speed of swimming U₀, reorientation time τ_R, and reorientation dimension d. This change in behavior is described by a telegraph equation, which governs the transition from ballistic wavelike motion to long-time diffusive motion. We study the relaxation of active Brownian particles from an instantaneous ...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Three-dimensional Wavelet Monte Carlo dynamics simulations are used to study the dynamics of passive...
We discuss recent advances in developing a mode-coupling theory of the glass transition (MCT) of two...
We highlight the unique wavelike character observed in the relaxation dynamics of active systems via...
We highlight the unique wavelike character observed in the relaxation dynamics of active systems via...
We study the diffusion of a Brownian probe particle of size R in a dilute dispersion of active Brown...
We study the diffusion of a Brownian probe particle of size R in a dilute dispersion of active Brown...
Chemically active particles may swim by self-diffusiophoresis in a concentration gradient of chemica...
7 pages, 3 figuresBrownian motion is widely used as a model of diffusion in equilibrium media throug...
In a colloidal suspension at equilibrium, the diffusive motion of a tracer particle due to random th...
In a colloidal suspension at equilibrium, the diffusive motion of a tracer particle due to random th...
Locomotion of self-propelled particles such as motile bacteria or phoretic swimmers often takes plac...
We study a system of interacting active particles, propelled by colored noises, characterized by an ...
A micron-sized droplet of bromine water immersed in a surfactant-laden oil phase can swim (S. Thutup...
Locomotion of self-propelled particles such as motile bacteria or phoretic swimmers often takes plac...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Three-dimensional Wavelet Monte Carlo dynamics simulations are used to study the dynamics of passive...
We discuss recent advances in developing a mode-coupling theory of the glass transition (MCT) of two...
We highlight the unique wavelike character observed in the relaxation dynamics of active systems via...
We highlight the unique wavelike character observed in the relaxation dynamics of active systems via...
We study the diffusion of a Brownian probe particle of size R in a dilute dispersion of active Brown...
We study the diffusion of a Brownian probe particle of size R in a dilute dispersion of active Brown...
Chemically active particles may swim by self-diffusiophoresis in a concentration gradient of chemica...
7 pages, 3 figuresBrownian motion is widely used as a model of diffusion in equilibrium media throug...
In a colloidal suspension at equilibrium, the diffusive motion of a tracer particle due to random th...
In a colloidal suspension at equilibrium, the diffusive motion of a tracer particle due to random th...
Locomotion of self-propelled particles such as motile bacteria or phoretic swimmers often takes plac...
We study a system of interacting active particles, propelled by colored noises, characterized by an ...
A micron-sized droplet of bromine water immersed in a surfactant-laden oil phase can swim (S. Thutup...
Locomotion of self-propelled particles such as motile bacteria or phoretic swimmers often takes plac...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Three-dimensional Wavelet Monte Carlo dynamics simulations are used to study the dynamics of passive...
We discuss recent advances in developing a mode-coupling theory of the glass transition (MCT) of two...