Achieving quantum-enhanced performances when measuring unknown quantities requires developing suitable methodologies for practical scenarios, which include noise and the availability of a limited amount of resources. Here, we report on the optimization of substandard quantum limit Bayesian multiparameter estimation in a scenario where a subset of the parameters describes unavoidable noise processes in an experimental photonic sensor. We explore how the optimization of the estimation changes depending on which parameters are either of interest or are treated as nuisance ones. Our results show that optimizing the multiparameter approach in noisy apparata represents a significant tool to fully exploit the potential of practical sensors operating beyond the standard quantum limit for broad resources range.
Optimizing quantum-enhanced Bayesian multiparameter estimation of phase and noise in practical sensors / Belliardo, Federico; Cimini, Valeria; Polino, Emanuele; Hoch, Francesco; Piccirillo, Bruno; Spagnolo, Nicolò; Giovannetti, Vittorio; Sciarrino, Fabio. - In: PHYSICAL REVIEW RESEARCH. - ISSN 2643-1564. - 6:2(2024), pp. 1-10. [10.1103/physrevresearch.6.023201]
Optimizing quantum-enhanced Bayesian multiparameter estimation of phase and noise in practical sensors
Piccirillo, BrunoWriting – Original Draft Preparation
;
2024
Abstract
Achieving quantum-enhanced performances when measuring unknown quantities requires developing suitable methodologies for practical scenarios, which include noise and the availability of a limited amount of resources. Here, we report on the optimization of substandard quantum limit Bayesian multiparameter estimation in a scenario where a subset of the parameters describes unavoidable noise processes in an experimental photonic sensor. We explore how the optimization of the estimation changes depending on which parameters are either of interest or are treated as nuisance ones. Our results show that optimizing the multiparameter approach in noisy apparata represents a significant tool to fully exploit the potential of practical sensors operating beyond the standard quantum limit for broad resources range.| File | Dimensione | Formato | |
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