Non-reciprocal interactions are present in many systems out of equilibrium. The rate of entropy production is a measure that quantifies the time irreversibility of a system, and thus how far it is from equilibrium. In this work, we introduce a non-motile active particle system where activity originates from asymmetric, pairwise interaction forces that result in an injection of energy at the microscopic scale. We calculate stationary correlation functions and entropy production rate in three exactly solvable cases, and analyse a more general case in a perturbation theory as an expansion in weak interactions using a fully microscopic description. Our results show that equilibrium may be recovered by adjusting the diffusion constants despite n...
Non-motile active matter exhibits a wide range of non-equilibrium collective phenomena yet examples ...
The standard relationships of statistical mechanics are upended my the presence of active forces. In...
Within the Rayleigh-Helmholtz model of active Brownian particles, activity is due to a nonlinear vel...
Non-reciprocal interactions are present in many systems out of equilibrium. The rate of entropy prod...
A positive rate of entropy production at steady state is a distinctive feature of truly non-equilibr...
Flocking in $d=2$ is a genuine non-equilibrium phenomenon for which irreversibility is an essential ...
Emergent non-reciprocal interactions violating Newton's third law are widespread in out-of-equilibri...
Time-reversal symmetry breaking and entropy production are universal features of nonequilibrium phen...
ArticleThis is the author accepted manuscript. The final version is available from American Physical...
Active-matter systems operate far from equilibrium because of the continuous energy injection at the...
Entropy production is the key to the second law of thermodynamics, and it is well defined by conside...
We present a stochastic description of a model of N mutually interacting active particles in the pre...
Celebrated fluctuation-dissipation theorem (FDT) linking the response function to time dependent cor...
Static nonreciprocal forces between particles generically drive persistent motion reminiscent of sel...
Systems driven out of equilibrium display a rich variety of patterns and surprising response behavio...
Non-motile active matter exhibits a wide range of non-equilibrium collective phenomena yet examples ...
The standard relationships of statistical mechanics are upended my the presence of active forces. In...
Within the Rayleigh-Helmholtz model of active Brownian particles, activity is due to a nonlinear vel...
Non-reciprocal interactions are present in many systems out of equilibrium. The rate of entropy prod...
A positive rate of entropy production at steady state is a distinctive feature of truly non-equilibr...
Flocking in $d=2$ is a genuine non-equilibrium phenomenon for which irreversibility is an essential ...
Emergent non-reciprocal interactions violating Newton's third law are widespread in out-of-equilibri...
Time-reversal symmetry breaking and entropy production are universal features of nonequilibrium phen...
ArticleThis is the author accepted manuscript. The final version is available from American Physical...
Active-matter systems operate far from equilibrium because of the continuous energy injection at the...
Entropy production is the key to the second law of thermodynamics, and it is well defined by conside...
We present a stochastic description of a model of N mutually interacting active particles in the pre...
Celebrated fluctuation-dissipation theorem (FDT) linking the response function to time dependent cor...
Static nonreciprocal forces between particles generically drive persistent motion reminiscent of sel...
Systems driven out of equilibrium display a rich variety of patterns and surprising response behavio...
Non-motile active matter exhibits a wide range of non-equilibrium collective phenomena yet examples ...
The standard relationships of statistical mechanics are upended my the presence of active forces. In...
Within the Rayleigh-Helmholtz model of active Brownian particles, activity is due to a nonlinear vel...