Thermodynamic nature of irreversibility in active matter

Active matter describes systems whose constituents convert energy from their surroundings into directed motion, such as bacteria or catalytic colloids. We unravel a remarkable direct link between the dynamics and thermodynamics for suspensions of such active particles: The thermodynamic equivalent of irreversibility is the swim pressure. Like in the famous fluctuation theorems of stochastic thermodynamics, irreversibility is defined as the log-ratio of the probabilities to observe a given set of particle trajectories and their time reverses. Our discovery is thus similar in spirit to what is known for passive systems, for which those fluctuation theorems relate the irreversibility to the thermodynamic entropy. It is based on numerical simulations and on analytical arguments for the limits of low particle density and/or high activity in the paradigmatic model of active Ornstein-Uhlenbeck particles.