Designing open quantum systems for enabling quantum enhanced sensing through classical measurements
Abstract
Quantum systems in nonequilibrium conditions, where coherent many-body interactions compete with dissipative effects, can feature rich phase diagrams and emergent critical behavior. Associated collective effects, together with the continuous observation of quanta dissipated into the environment -- typically photons -- allow to achieve quantum enhanced parameter estimation. However, protocols for tapping this enhancement typically involve intricate measurements on the combined system-environment state. Here we show that many-body quantum enhancement can in fact be obtained through classical measurements, such as photon counting and homodyne detection. We illustrate this in detail for a class of open spin-boson models which can be realized in trapped-ion or cavity QED setups. Our findings highlight a route towards the design of systems that enable a practical implementation of quantum enhanced metrology through continuous classical measurements.
Cite
@article{arxiv.2505.08756,
title = {Designing open quantum systems for enabling quantum enhanced sensing through classical measurements},
author = {Robert Mattes and Albert Cabot and Federico Carollo and Igor Lesanovsky},
journal= {arXiv preprint arXiv:2505.08756},
year = {2026}
}
Comments
7+11 pages, 3+3 figures, Last version before acceptance for publication