Add to ORKGIn the absence of directional motion it is often hard to recognize athermal fluctuations. Probability currents provide such a measure in terms of the rate at which they enclose area in phase space. We measure this area enclosing rate for trapped colloidal particles, where only one particle is driven. By combining experiment, theory, and simulation, we single out the effect of the different time scales in the system on the measured probability currents. In this controlled experimental setup, particles interact hydrodynamically. These interactions lead to a strong spatial dependence of the probability currents and to a local influence of athermal agitation. In a multiple-particle system, we show that even when the driving acts only on one par...
It is known that for a particle held in an optical trap the interaction of thermal fluctuations with...
peer reviewedUsing the framework of stochastic thermodynamics, we present an experimental study of a...
We characterise the steady states of a suspension of two-dimensional active brownian particles (ABPs...
We investigate the statistics of the fluctuations of the energy transfer between an overdamped Brown...
We analyse biased ensembles of trajectories for a two-dimensional system of particles, evolving by L...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
We study the non-equilibrium relaxational dynamics of a probe particle linearly coupled to a thermal...
We investigate the dynamics of single microparticles immersed in water that are driven out of equili...
We investigate the motion of a colloidal particle driven out of equilibrium by a time-varying stiffn...
We characterize a system of hard spheres with a simple collision rule that breaks time reversal symm...
Colloids that attractively bond to only a few neighbors (e.g., patchy particles) can form equilibriu...
to be published in EPLInternational audienceWe study experimentally the fluctuations of the injected...
A profoundly fundamental question at the interface between physics and biology remains open: what ar...
Thermal and viscous forces compete for dominance at the microscopic length-scales which govern the b...
Important models of nonequilibrium statistical physics (NESP) are limited by a commonly used, but of...
It is known that for a particle held in an optical trap the interaction of thermal fluctuations with...
peer reviewedUsing the framework of stochastic thermodynamics, we present an experimental study of a...
We characterise the steady states of a suspension of two-dimensional active brownian particles (ABPs...
We investigate the statistics of the fluctuations of the energy transfer between an overdamped Brown...
We analyse biased ensembles of trajectories for a two-dimensional system of particles, evolving by L...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
We study the non-equilibrium relaxational dynamics of a probe particle linearly coupled to a thermal...
We investigate the dynamics of single microparticles immersed in water that are driven out of equili...
We investigate the motion of a colloidal particle driven out of equilibrium by a time-varying stiffn...
We characterize a system of hard spheres with a simple collision rule that breaks time reversal symm...
Colloids that attractively bond to only a few neighbors (e.g., patchy particles) can form equilibriu...
to be published in EPLInternational audienceWe study experimentally the fluctuations of the injected...
A profoundly fundamental question at the interface between physics and biology remains open: what ar...
Thermal and viscous forces compete for dominance at the microscopic length-scales which govern the b...
Important models of nonequilibrium statistical physics (NESP) are limited by a commonly used, but of...
It is known that for a particle held in an optical trap the interaction of thermal fluctuations with...
peer reviewedUsing the framework of stochastic thermodynamics, we present an experimental study of a...
We characterise the steady states of a suspension of two-dimensional active brownian particles (ABPs...