Impact of Information on Quantum Heat Engines

TL;DR

This paper develops a comprehensive framework for quantum heat engines with feedback control involving Maxwell's demon, revealing complex effects of information on engine performance.

Contribution

It introduces a general, hybrid classical-quantum framework for feedback-controlled quantum engines interacting with multiple thermal baths.

Findings

More information does not always improve engine performance.

The framework resolves Maxwell's paradox in quantum thermodynamics.

Application to a two-qubit engine demonstrates the theory.

Abstract

The emerging field of quantum thermodynamics is beginning to reveal the intriguing role that information can play in quantum thermal engines. Information enters as a resource when considering feedback-controlled thermal machines. While both a general theory of quantum feedback control as well as specific examples of quantum feedback-controlled engines have been presented, still lacking is a general framework for such machines. Here, we present a framework for a generic, two-stroke quantum heat engine interacting with $N$ thermal baths and Maxwell's demon. The demon performs projective measurements on the engine working substance, the outcome of which is recorded in a classical memory, embedded in its own thermal bath. To perform feedback control, the demon enacts unitary operations on the working substance, conditioned on the recorded outcome. By considering the compound machine-memory as a hybrid (classical-quantum) standard thermal machine interacting with $N+1$ thermal baths, our framework puts the working substance and memory on equal footing, thereby enabling a comprehensible resolution to Maxwell's paradox and elucidating the intricate manner in which information impacts the performance of quantum engines. We illustrate the application of our framework with a two-qubit engine. A remarkable observation is that more information does not necessarily result in better thermodynamic performance: sometimes knowing less is better.