Mesoscopic machines (like molecular motors) can be modeled by Markov processes whenever a fluctuating environment strongly influences their behavior. In this context, stochastic thermodynamics is the appropriated theoretical framework to study the machine output power and efficiency, either at the mean or fluctuating levels. In this talk, I will review the main results of stochastic thermodynamics and their consequences for machines. The second law, that takes here the shape of the so-called fluctuation theorem, constrains in many ways the behavior of a machine. For systems working in a non equilibrium stationary state, I will introduce the notion of non-equilibrium conductance matrix connecting currents and thermodynamic forces. This matrix is essential to determine
These concepts offer a general point of view on recent results on power-efficiency trade-off that limits a machine performance.
Café servi dans le hall à partir de 11h.