We present a stylized model of controlled equilibration of a small system in a fluctuating environment. We derive the optimal control equations steering in finite-time the system between two equilibrium states. The corresponding thermodynamic transition is optimal in the sense that it occurs at minimum entropy if the set of admissible controls is restricted by certain bounds on the time derivatives of the protocols. We apply our equations to the engineered equilibration of an optical trap considered in a recent proof of principle experiment. We also analyze an elementary model of nucleation previously considered by Landauer to discuss the thermodynamic cost of one bit of information erasure. We expect our model to be a useful benchmark for ...
The development of sophisticated experimental means to control nanoscale systems has motivated effor...
Thermodynamics has a long history. It was established during the 19th century as a phenomenological ...
International audienceA fundamental and intrinsic property of any device or natural system is its re...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We propose an optimization strategy to control the dynamics of a stochastic system transferred from ...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
Living systems are distinguished by their self-organization. Given the entropic driving force embodi...
We apply Pontryagin’s principle to drive rapidly a trapped overdamped Brownian particle in contact w...
We consider damped stochastic systems in a controlled (time-varying) potential and study their trans...
We present a feedback protocol that is able to confine a system to a single microstate without heat ...
Stochastic thermodynamics lays down a broad framework to revisit the venerable concepts of heat, wor...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
A system-theoretic basis for process control is developed using statistical mechanics as our point o...
The development of sophisticated experimental means to control nanoscale systems has motivated effor...
Thermodynamics has a long history. It was established during the 19th century as a phenomenological ...
International audienceA fundamental and intrinsic property of any device or natural system is its re...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We present a stylized model of controlled equilibration of a small system in a fluctuating environme...
We propose an optimization strategy to control the dynamics of a stochastic system transferred from ...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
Living systems are distinguished by their self-organization. Given the entropic driving force embodi...
We apply Pontryagin’s principle to drive rapidly a trapped overdamped Brownian particle in contact w...
We consider damped stochastic systems in a controlled (time-varying) potential and study their trans...
We present a feedback protocol that is able to confine a system to a single microstate without heat ...
Stochastic thermodynamics lays down a broad framework to revisit the venerable concepts of heat, wor...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
We characterize finite-time thermodynamic processes of multidimensional quadratic overdamped systems...
A system-theoretic basis for process control is developed using statistical mechanics as our point o...
The development of sophisticated experimental means to control nanoscale systems has motivated effor...
Thermodynamics has a long history. It was established during the 19th century as a phenomenological ...
International audienceA fundamental and intrinsic property of any device or natural system is its re...