Possibility of detecting the gravity of an object frozen in a spatial superposition by the Zeno effect

Peter Sidajaya, Wan Cong, Valerio Scarani

Type: Article

Publication Date: 2022-10-21

Citations: 7

DOI: https://doi.org/10.1103/physreva.106.042217

Abstract

While quantum probes surely feel gravity, no source of gravity has been prepared in a delocalized quantum state yet. Two basic questions need to be addressed: how to delocalize a mass sufficiently large to generate detectable gravity and, once that state has been prepared, how to fight localization by decoherence. We propose to fight decoherence by freezing the source in the desired state through the Zeno effect. Successful implementation can be verified by scattering a probe in the effective potential generated by the source. Besides putting forward the idea, we provide an estimation of the values of the parameters required for the proposal to be feasible. Overall, the proposal seems as challenging as other existing ones, although the specific challenges are different (e.g., no entanglement needs to be preserved or detected, but the Zeno freezing must be implemented).

Locations

Physical review. A/Physical review, A - View
arXiv (Cornell University) - View - PDF

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