Add to ORKGWe study the problem of optimizing released heat or dissipated work in stochastic thermodynamics. In the overdamped limit these functionals have singular solutions, previously interpreted as protocol jumps. We show that a regularization, penalizing a properly defined acceleration, changes the jumps into boundary layers of finite width. We show that in the limit of vanishing boundary layer width no heat is dissipated in the boundary layer, while work can be done. We further give a new interpretation of the fact that the optimal protocols in the overdamped limit are given by optimal deterministic transport (Burgers equation)
The optimal protocols for the irreversible work achieve their maximum usefulness if their work fluct...
We study three classes of continuous time Markov processes (inclusion process, exclusion process, in...
We optimize finite-time stochastic heat engines with a periodically scaled Hamiltonian under experim...
We study the problem of optimizing released heat or dissipated work in stochastic thermodynamics. I...
Complex systems can convert energy imparted by nonequilibrium forces to regulate how quickly they tr...
Classical thermodynamics is aimed at quantifying the efficiency of thermodynamic engines by bounding...
peer reviewedAfter establishing stochastic thermodynamics for underdamped Langevin systems in contac...
In this paper, we first define a deterministic particle model for heat conduction. It consists of a ...
We study heat transport in a one-dimensional chain of a finite number N of identical cells, coupled ...
We consider the optimization of the average entropy production in inhomogeneous temperature environm...
Motivated by recent developments on solvable directed polymer models, we define a ‘multi-layer’ exte...
AbstractIn this paper we examine the problem of the heat equation with non-linear boundary condition...
International audienceThe initial-boundary value problem for the heat equation is solved by using an...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
The thermal response of nonequilibrium systems requires the knowledge of concepts that go beyond ent...
The optimal protocols for the irreversible work achieve their maximum usefulness if their work fluct...
We study three classes of continuous time Markov processes (inclusion process, exclusion process, in...
We optimize finite-time stochastic heat engines with a periodically scaled Hamiltonian under experim...
We study the problem of optimizing released heat or dissipated work in stochastic thermodynamics. I...
Complex systems can convert energy imparted by nonequilibrium forces to regulate how quickly they tr...
Classical thermodynamics is aimed at quantifying the efficiency of thermodynamic engines by bounding...
peer reviewedAfter establishing stochastic thermodynamics for underdamped Langevin systems in contac...
In this paper, we first define a deterministic particle model for heat conduction. It consists of a ...
We study heat transport in a one-dimensional chain of a finite number N of identical cells, coupled ...
We consider the optimization of the average entropy production in inhomogeneous temperature environm...
Motivated by recent developments on solvable directed polymer models, we define a ‘multi-layer’ exte...
AbstractIn this paper we examine the problem of the heat equation with non-linear boundary condition...
International audienceThe initial-boundary value problem for the heat equation is solved by using an...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
The thermal response of nonequilibrium systems requires the knowledge of concepts that go beyond ent...
The optimal protocols for the irreversible work achieve their maximum usefulness if their work fluct...
We study three classes of continuous time Markov processes (inclusion process, exclusion process, in...
We optimize finite-time stochastic heat engines with a periodically scaled Hamiltonian under experim...