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| Title: | Critical parametric quantum sensing |
| Author(s): | Di Candia, R. ; Minganti, F. ; Petrovnin, K.V. ; Paraoanu, G.S. ; Felicetti, S. |
| Date: | 2023-03-14 |
| Language: | en |
| Pages: | 9 |
| Department: | Department of Information and Communications Engineering École Polytechnique Fedérale de Lausanne Centre of Excellence in Quantum Technology, QTF Consiglio Nazionale delle Ricerche (CNR) Department of Information and Communications Engineering Department of Applied Physics |
| Series: | npj Quantum Information, Volume 9 |
| ISSN: | 2056-6387 |
| DOI-number: | 10.1038/s41534-023-00690-z |
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Di Candia , R , Minganti , F , Petrovnin , K V , Paraoanu , G S & Felicetti , S 2023 , ' Critical parametric quantum sensing ' , npj Quantum Information , vol. 9 . https://doi.org/10.1038/s41534-023-00690-z |
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Abstract:Critical quantum systems are a promising resource for quantum metrology applications, due to the diverging susceptibility developed in proximity of phase transitions. Here, we assess the metrological power of parametric Kerr resonators undergoing driven-dissipative phase transitions. We fully characterize the quantum Fisher information for frequency estimation, and the Helstrom bound for frequency discrimination. By going beyond the asymptotic regime, we show that the Heisenberg precision can be achieved with experimentally reachable parameters. We design protocols that exploit the critical behavior of nonlinear resonators to enhance the precision of quantum magnetometers and the fidelity of superconducting qubit readout.
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Description:| openaire: EC/H2020/891517/EU//Green-MIQUEC | openaire: EC/H2020/862644/EU//QUARTET
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