Recent experiments show a strong rotational diffusion enhancement for self-propelled microrheological probes in colloidal glasses. Here, we provide microscopic understanding using simulations with a frictional probe-medium coupling that converts active translation into rotation. Diffusive enhancement emerges from the medium’s disordered structure and peaks at a second-order transition in the number of contacts. Our results reproduce the salient features of the colloidal glass experiment and support an effective description that is applicable to a broader class of viscoelastic suspensions.publishe
We study the strongly nonlinear flow behavior of a sticky colloidal dispersion via active microrheol...
Within a microscopic formalism for the nonequilibrium response of colloidal suspensions driven by an...
We experimentally investigate active motion of spherical Janus colloidal particles in a viscoelastic...
Understanding the mechanical properties of glasses is a great scientific challenge. A powerful techn...
In active microrheology, a strong external force is applied to a colloidal probe immersed in a compl...
Microrheology was proposed almost twenty years ago as a technique to obtain rheological properties i...
We investigate active particle-tracking microrheology in a colloidal dispersion by Brownian dynamics...
Viscoelastic media belong to our everyday live and are highly relevant in different fields like medi...
Active Brownian particles (APs) have recently been shown to exhibit enhanced rotational diffusion (E...
We examine linear viscoelastic, and translational and rotational diffusion properties of colloidal m...
We investigate the force-induced diffusive motion of a tracer particle inside a glass-forming suspen...
Bulk rheological properties of viscoelastic fluids have been extensively studied in macroscopic shea...
From PubMed via Jisc Publications RouterHistory: received 2021-04-27, revised 2021-07-14, accepted 2...
We present a first-principles theory for the active nonlinear microrheology of colloidal model syste...
The motion of a colloidal probe in a viscoelastic fluid is described by friction or mobility, depend...
We study the strongly nonlinear flow behavior of a sticky colloidal dispersion via active microrheol...
Within a microscopic formalism for the nonequilibrium response of colloidal suspensions driven by an...
We experimentally investigate active motion of spherical Janus colloidal particles in a viscoelastic...
Understanding the mechanical properties of glasses is a great scientific challenge. A powerful techn...
In active microrheology, a strong external force is applied to a colloidal probe immersed in a compl...
Microrheology was proposed almost twenty years ago as a technique to obtain rheological properties i...
We investigate active particle-tracking microrheology in a colloidal dispersion by Brownian dynamics...
Viscoelastic media belong to our everyday live and are highly relevant in different fields like medi...
Active Brownian particles (APs) have recently been shown to exhibit enhanced rotational diffusion (E...
We examine linear viscoelastic, and translational and rotational diffusion properties of colloidal m...
We investigate the force-induced diffusive motion of a tracer particle inside a glass-forming suspen...
Bulk rheological properties of viscoelastic fluids have been extensively studied in macroscopic shea...
From PubMed via Jisc Publications RouterHistory: received 2021-04-27, revised 2021-07-14, accepted 2...
We present a first-principles theory for the active nonlinear microrheology of colloidal model syste...
The motion of a colloidal probe in a viscoelastic fluid is described by friction or mobility, depend...
We study the strongly nonlinear flow behavior of a sticky colloidal dispersion via active microrheol...
Within a microscopic formalism for the nonequilibrium response of colloidal suspensions driven by an...
We experimentally investigate active motion of spherical Janus colloidal particles in a viscoelastic...