Multiparameter estimation is a general problem that aims at measuring unknown physical quantities, obtaining high precision in the process. In this context, the adoption of quantum resources promises a substantial boost in achievable performances with respect to the classical case. However, several open problems remain to be addressed in the multiparameter scenario. A crucial requirement is the identification of suitable platforms to develop and experimentally test novel efficient methodologies that can be employed in this general framework. We report the experimental implementation of a reconfigurable integrated multimode interferometer designed for simultaneous estimation of two optical phases. We verify the high-fidelity operation of the implemented device and demonstrate quantum-enhanced performances in two-phase estimation with respect to the best classical case, post-selected to the number of detected coincidences. This device can be employed to test general adaptive multiphase protocols due to its high reconfigur-ability level, and represents a powerful platform to investigate the multiparameter estimation scenario.
Experimental multiphase estimation on a chip / Polino, E.; Riva, M.; Valeri, M.; Silvestri, R.; Corrielli, G.; Crespi, A.; Spagnolo, N.; Osellame, R.; Sciarrino, F.. - In: OPTICA. - ISSN 2334-2536. - 6:3(2019), pp. 288-295. [10.1364/OPTICA.6.000288]
Experimental multiphase estimation on a chip
Polino E.;Valeri M.;Spagnolo N.;Sciarrino F.
2019
Abstract
Multiparameter estimation is a general problem that aims at measuring unknown physical quantities, obtaining high precision in the process. In this context, the adoption of quantum resources promises a substantial boost in achievable performances with respect to the classical case. However, several open problems remain to be addressed in the multiparameter scenario. A crucial requirement is the identification of suitable platforms to develop and experimentally test novel efficient methodologies that can be employed in this general framework. We report the experimental implementation of a reconfigurable integrated multimode interferometer designed for simultaneous estimation of two optical phases. We verify the high-fidelity operation of the implemented device and demonstrate quantum-enhanced performances in two-phase estimation with respect to the best classical case, post-selected to the number of detected coincidences. This device can be employed to test general adaptive multiphase protocols due to its high reconfigur-ability level, and represents a powerful platform to investigate the multiparameter estimation scenario.File | Dimensione | Formato | |
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