Information engines can use structured environments as a resource to generate work by randomizing ordered inputs and leveraging the increased Shannon entropy to transfer energy from a thermal reservoir to a work reservoir. We give a broadly applicable expression for the work production of an information engine, generally modeled as a memoryful channel that communicates inputs to outputs as it interacts with an evolving environment. The expression establishes that an information engine must have more than one memory state in order to leverage input environment correlations. To emphasize this functioning, we designed an information engine powered solely by temporal correlations an...
In this thesis we explore the relationship between information processing and physics. We use variou...
We experimentally demonstrate that highly structured distributions of work emerge during even the si...
Mandal and Jarzynski have proposed a fully autonomous information heat engine, consisting of a demon...
Information engines can use structured environments as a resource to generate work by rando...
Information engines can use structured environments as a resource to generate work by randomizing or...
Understanding structured information and computation in thermodynamics systems is crucial to progres...
Thermodynamic uncertainty relations (TURs) set fundamental bounds on the fluctuation and dissipation...
Understanding noisy information engines is a fundamental problem of non-equilibrium physics, particu...
Key to biological success, the requisite variety that confronts an adaptive organism is the...
The common saying, that information is power, takes a rigorous form in stochastic thermodynamics, wh...
Recently proposed information-exploiting systems extract work from a single heat bath by using tempo...
Brownian information engines can extract work from thermal fluctuations by utilizing information. To...
Maxwell’s Demon conspires to use information about the state of a confined molecule in a Szilard eng...
We study a two-level system controlled in a discrete feedback loop, modeling both the system and the...
Brownian information engines can extract work from thermal fluctuations by utilizing information. So...
In this thesis we explore the relationship between information processing and physics. We use variou...
We experimentally demonstrate that highly structured distributions of work emerge during even the si...
Mandal and Jarzynski have proposed a fully autonomous information heat engine, consisting of a demon...
Information engines can use structured environments as a resource to generate work by rando...
Information engines can use structured environments as a resource to generate work by randomizing or...
Understanding structured information and computation in thermodynamics systems is crucial to progres...
Thermodynamic uncertainty relations (TURs) set fundamental bounds on the fluctuation and dissipation...
Understanding noisy information engines is a fundamental problem of non-equilibrium physics, particu...
Key to biological success, the requisite variety that confronts an adaptive organism is the...
The common saying, that information is power, takes a rigorous form in stochastic thermodynamics, wh...
Recently proposed information-exploiting systems extract work from a single heat bath by using tempo...
Brownian information engines can extract work from thermal fluctuations by utilizing information. To...
Maxwell’s Demon conspires to use information about the state of a confined molecule in a Szilard eng...
We study a two-level system controlled in a discrete feedback loop, modeling both the system and the...
Brownian information engines can extract work from thermal fluctuations by utilizing information. So...
In this thesis we explore the relationship between information processing and physics. We use variou...
We experimentally demonstrate that highly structured distributions of work emerge during even the si...
Mandal and Jarzynski have proposed a fully autonomous information heat engine, consisting of a demon...