Quantum clocks are more precise than classical ones
Quantum Physics
2022-02-28 v3 Mathematical Physics
math.MP
Abstract
A clock is, from an information-theoretic perspective, a system that emits information about time. One may therefore ask whether the theory of information imposes any constraints on the maximum precision of clocks. Here we show a quantum-over-classical advantage for clocks or, more precisely, the task of generating information about what time it is. The argument is based on information-theoretic considerations: we analyse how the precision of a clock scales with its size, measured in terms of the number of bits that could be stored in it. We find that a quantum clock can achieve a quadratically improved precision compared to a purely classical one of the same size.
Cite
@article{arxiv.1806.00491,
title = {Quantum clocks are more precise than classical ones},
author = {Mischa P. Woods and Ralph Silva and Gilles Pütz and Sandra Stupar and Renato Renner},
journal= {arXiv preprint arXiv:1806.00491},
year = {2022}
}
Comments
17 + 60 pages. V3: updated in line with published version