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Quantum back-action limits in dispersively measured Bose-Einstein condensates

Abstract

A fundamental tenet of quantum mechanics is that measurements change a system’s wavefunction to that most consistent with the measurement outcome, even if no observer is present. Weak measurements produce only limited information about the system, and as a result only minimally change the system’s state. Here, we theoretically and experimentally characterize quantum back-action in atomic Bose-Einstein condensates interacting with a far-from resonant laser beam. We theoretically describe this process using a quantum trajectories approach where the environment measures the scattered light and present a measurement model based on an ideal photodetection mechanism. We experimentally quantify the resulting wavefunction change in terms of the contrast of a Ramsey interferometer and control parasitic effects associated with the measurement process. The observed back-action is in good agreement with our measurement model; this result is a necessary precursor for achieving true quantum back-action limited measurements of quantum gases.

Publication Details

Authors
Publication Type
Journal Article
Year of Publication
2023
Journal
Communications Physics
Volume
6
Issue
1
Date Published
04/2023
Publisher
Springer Science and Business Media LLC
ISSN
2399-3650

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