Quantum clocks observe classical and quantum time dilation
Abstract
At the intersection of quantum theory and relativity lies the possibility of a clock experiencing a superposition of proper times. We consider quantum clocks constructed from the internal degrees of relativistic particles that move through curved spacetime. The probability that one clock reads a given proper time conditioned on another clock reading a different proper time is derived. From this conditional probability distribution, it is shown that when the center-of-mass of these clocks move in localized momentum wave packets they observe classical time dilation. We then illustrate a quantum correction to the time dilation observed by a clock moving in a superposition of localized momentum wave packets that has the potential to be observed in experiment. The Helstrom-Holevo lower bound is used to derive a proper time-energy/mass uncertainty relation.
Cite
@article{arxiv.1904.12390,
title = {Quantum clocks observe classical and quantum time dilation},
author = {Alexander R. H. Smith and Mehdi Ahmadi},
journal= {arXiv preprint arXiv:1904.12390},
year = {2021}
}
Comments
Updated to match published version