Chiral active matter is enjoying a rapid increase of interest, spurred by the rich variety of asymmetries that can be attained in, e.g., the shape or self-propulsion mechanism of active particles. Though this has already led to the observance of so-called chiral crystals, active chiral glasses remain largely unexplored. A possible reason for this could be the naive expectation that interactions dominate the glassy dynamics and the details of the active motion become increasingly less relevant. Here, we show that quite the opposite is true by studying the glassy dynamics of interacting chiral active Brownian particles. We demonstrate that when our chiral fluid is pushed to glassy conditions, it exhibits highly nontrivial dynamics, especially...
One of the most intriguing phenomena in active matter has been the gas-liquid like motility induced...
Chiral active matter comprises particles which can self-propel and self-rotate. Examples range from ...
Active colloids self-organise to a variety of collective states, ranging from highly motile "molecul...
Chiral active matter is enjoying a rapid increase of interest, spurred by the rich variety of asymme...
Active fluids are ubiquitous in nature, spanning both microscopic and macroscopic length scales. They...
Understanding how chiral active particles -- which self-propel and self-rotate -- interact with each...
In equilibrium liquid crystals, chirality leads to a variety of spectacular three-dimensional struct...
Recent years have seen a rapid increase of interest in dense active materials, which, in the disorde...
The coupling of active, self-motile particles to topological constraints can give rise to novel non-...
The success of spectroscopy to characterize equilibrium fluids, for example the heat-capacity ratio,...
Biological matter is driven far from thermodynamic equilibrium by active processes on the molecular ...
Active glassy matter has recently emerged as a novel class of non-equilibrium soft matter, combining...
We study in this work the 2D dynamics of an experimental system of disk-shaped rotors, fluidized by ...
Recent years have seen a rapid increase of interest in dense active materials, which, in the disorde...
International audienceActive hydrodynamic theories are a powerful tool to study the emergent ordered...
One of the most intriguing phenomena in active matter has been the gas-liquid like motility induced...
Chiral active matter comprises particles which can self-propel and self-rotate. Examples range from ...
Active colloids self-organise to a variety of collective states, ranging from highly motile "molecul...
Chiral active matter is enjoying a rapid increase of interest, spurred by the rich variety of asymme...
Active fluids are ubiquitous in nature, spanning both microscopic and macroscopic length scales. They...
Understanding how chiral active particles -- which self-propel and self-rotate -- interact with each...
In equilibrium liquid crystals, chirality leads to a variety of spectacular three-dimensional struct...
Recent years have seen a rapid increase of interest in dense active materials, which, in the disorde...
The coupling of active, self-motile particles to topological constraints can give rise to novel non-...
The success of spectroscopy to characterize equilibrium fluids, for example the heat-capacity ratio,...
Biological matter is driven far from thermodynamic equilibrium by active processes on the molecular ...
Active glassy matter has recently emerged as a novel class of non-equilibrium soft matter, combining...
We study in this work the 2D dynamics of an experimental system of disk-shaped rotors, fluidized by ...
Recent years have seen a rapid increase of interest in dense active materials, which, in the disorde...
International audienceActive hydrodynamic theories are a powerful tool to study the emergent ordered...
One of the most intriguing phenomena in active matter has been the gas-liquid like motility induced...
Chiral active matter comprises particles which can self-propel and self-rotate. Examples range from ...
Active colloids self-organise to a variety of collective states, ranging from highly motile "molecul...