An autonomous single-piston engine with a quantum rotor
Quantum Physics
2018-06-01 v2
Abstract
Pistons are elementary components of a wide variety of thermal engines, allowing to convert input fuel into rotational motion. Here, we propose a single-piston engine where the rotational degree of freedom is effectively realized by the flux of a Josephson loop -- a quantum rotor -- while the working volume corresponds to the effective length of a superconducting resonator. Our autonomous design implements a Carnot cycle, relies solely on standard thermal baths and can be implemented with circuit quantum electrodynamics. We demonstrate how the engine is able to extract a net positive work via its built-in synchronicity using a filter cavity as an effective valve, eliminating the need for external control.
Keywords
Cite
@article{arxiv.1802.05486,
title = {An autonomous single-piston engine with a quantum rotor},
author = {Alexandre Roulet and Stefan Nimmrichter and Jacob M. Taylor},
journal= {arXiv preprint arXiv:1802.05486},
year = {2018}
}
Comments
7 pages, 3 figures