Closed-loop or feedback controlled ratchets are Brownian motors that operate using information about the state of the system. For these ratchets, we compute the power output and we investigate its relation with the information used in the feedback control. We get analytical expressions for one-particle and few-particle flashing ratchets, and we find that the maximum power output has an upper bound proportional to the information. In addition, we show that the increase of the power output that results from changing the optimal open-loop ratchet to a closed-loop ratchet also has an upper bound that is linear in the information
International audienceClosed-loop or feedback control ratchets use information about the state of th...
We present a model for a feedback-controlled ratchet consisting of a Brownian particle and a moving,...
The directed transport properties of feedback coupled Brownian ratchets under the effect of external...
International audienceClosed-loop or feedback controlled ratchets are Brownian motors that operate u...
International audienceWe study a feedback control version of the flashing Brownian ratchet, in which...
Efficiency at maximum power is found to be of the same order for a feedback ratchet and for its open...
We present a model for a feedback-controlled ratchet consisting of a Brownian particle and a moving,...
International audienceFeedback flashing ratchets are thermal rectifiers that use information on the ...
Feedback or closed-loop control allows dynamical systems to increase their performance up to a limit...
International audienceWe show how to switch on and off the ratchet potential of a collective Brownia...
A Brownian information engine can induce directed motion of a Brownian particle in a single heat bat...
The efficiency of different types of Brownian motors is calculated analytically and numerically. We ...
International audienceAn ensemble of Brownian particles in a feedback controlled flashing ratchet is...
The noise-induced transport due to spatial symmetry-breaking is a key mechanism for the generation o...
We present an experimental realization of an information-driven Brownian motor by periodically cooli...
International audienceClosed-loop or feedback control ratchets use information about the state of th...
We present a model for a feedback-controlled ratchet consisting of a Brownian particle and a moving,...
The directed transport properties of feedback coupled Brownian ratchets under the effect of external...
International audienceClosed-loop or feedback controlled ratchets are Brownian motors that operate u...
International audienceWe study a feedback control version of the flashing Brownian ratchet, in which...
Efficiency at maximum power is found to be of the same order for a feedback ratchet and for its open...
We present a model for a feedback-controlled ratchet consisting of a Brownian particle and a moving,...
International audienceFeedback flashing ratchets are thermal rectifiers that use information on the ...
Feedback or closed-loop control allows dynamical systems to increase their performance up to a limit...
International audienceWe show how to switch on and off the ratchet potential of a collective Brownia...
A Brownian information engine can induce directed motion of a Brownian particle in a single heat bat...
The efficiency of different types of Brownian motors is calculated analytically and numerically. We ...
International audienceAn ensemble of Brownian particles in a feedback controlled flashing ratchet is...
The noise-induced transport due to spatial symmetry-breaking is a key mechanism for the generation o...
We present an experimental realization of an information-driven Brownian motor by periodically cooli...
International audienceClosed-loop or feedback control ratchets use information about the state of th...
We present a model for a feedback-controlled ratchet consisting of a Brownian particle and a moving,...
The directed transport properties of feedback coupled Brownian ratchets under the effect of external...