Measuring time with stationary quantum clocks
Abstract
Time plays a fundamental role in our ability to make sense of the physical laws in the world around us. The nature of time has puzzled people -- from the ancient Greeks to the present day -- resulting in a long running debate between philosophers and physicists alike to whether time needs change to exist (the so-called relatival theory), or whether time flows regardless of change (the so-called substantival theory). One way to decide between the two is to attempt to measure the flow of time with a stationary clock, since if time were substantival, the flow of time would manifest itself in the experiment. Alas, conventional wisdom suggests that in order for a clock to function, it cannot be a static object, thus rendering this experiment seemingly impossible. Here we show, with the aid of counterfactual measurements, the surprising result that a quantum clock can measure the passage of time even while being switched off, thus lending constructive support for the substantival theory of time.
Cite
@article{arxiv.2106.07684,
title = {Measuring time with stationary quantum clocks},
author = {Sergii Strelchuk and Mischa P. Woods},
journal= {arXiv preprint arXiv:2106.07684},
year = {2021}
}
Comments
Main text: 6 pages. Supplementary: 6 pages. Appendices: 16 pages