Harnessing higher-dimensional fluctuations in an information engine
Abstract
We study the optimal performance of an information engine consisting of an overdamped Brownian bead confined in a controllable, -dimensional harmonic trap and additionally subjected to gravity. The trap's center is updated dynamically via a feedback protocol designed such that no external work is done by the trap on the bead, while maximizing the extraction of gravitational potential energy and achieving directed motion. We show that performance strikingly improves when thermal fluctuations in directions perpendicular to gravity are harnessed. This improvement arises from feedback cooling of these transverse degrees of freedom, along which all heat is extracted; comparable performance can be achieved even without vertical measurements. This engine design modularizes the functions of harnessing fluctuations and storing free energy, drawing a close analogy to the Szilard engine.
Keywords
Cite
@article{arxiv.2507.15503,
title = {Harnessing higher-dimensional fluctuations in an information engine},
author = {Antonio Patrón Castro and John Bechhoefer and David A. Sivak},
journal= {arXiv preprint arXiv:2507.15503},
year = {2026}
}
Comments
13 pages, 5 figures