Retrieving information in sloppy quantum phase estimation
- URL: http://arxiv.org/abs/2503.04976v1
- Date: Thu, 06 Mar 2025 21:12:31 GMT
- Title: Retrieving information in sloppy quantum phase estimation
- Authors: Gabriele Bizzarri, Miranda Parisi, Mylenne Manrique, Ilaria Gianani, Andrea Chiuri, Matteo Rosati, Vittorio Giovannetti, Matteo G. A. Paris, Marco Barbieri,
- Abstract summary: We show how a sloppy behavior can be controlled and counteracted via quantum weak measurements in the estimation of two sequential phases.<n>Our work provides an important insight of sloppiness detection in quantum systems, with promising applications in quantum metrology and imaging, as well as to quantum security and quantum monitoring.
- Score: 0.5500539763271088
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The description of complex systems requires a progressively larger number of parameters. However, in practice it often happens that a small subset of parameters suffice to describe the dynamics of the system itself in terms of stiff combinations, while the remaining sloppy combinations provide no information on the system. While this effect can reduce model complexity, it can also limit the estimation precision when the stiff and sloppy combinations are unknown to the experimenter, and one is forced to estimate the potentially sloppy model parameters. We explored how such a sloppy behavior can be controlled and counteracted via quantum weak measurements in the estimation of two sequential phases. We showed that the introduction of a weak measurement of variable strength in-between the two phases allows to switch from a fully sloppy setup to a fully determined one where both phases can be estimated with quantum-limited precision. Our work provides an important insight of sloppiness detection in quantum systems, with promising applications in quantum metrology and imaging, as well as to quantum security and quantum monitoring.
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