In quantum metrological applications based on ultracold atom systems, entangled initial states are thought necessary to achieve sub-shot-noise accuracies. This conclusion, although strictly true for systems of distinguishable particles, does no longer hold for systems of identical particles. Indeed, while quantum non-locality is necessary, it can be encoded into the interferometric apparatus and not into the initial states. In particular, no preliminary spin-squeezing is necessary to reach quantum performances in metrological applications of ultracold atom physics.
Entanglement and squeezing with identical particles: Ultracold atom quantum metrology / Benatti, Fabio; Floreanini, Roberto; Marzolino, Ugo. - In: JOURNAL OF PHYSICS. B, ATOMIC MOLECULAR AND OPTICAL PHYSICS. - ISSN 0953-4075. - STAMPA. - 44:9(2011), pp. 091001.091001-091001.091006. [10.1088/0953-4075/44/9/091001]
Entanglement and squeezing with identical particles: Ultracold atom quantum metrology
BENATTI, FABIO;FLOREANINI, ROBERTO;MARZOLINO, UGO
2011-01-01
Abstract
In quantum metrological applications based on ultracold atom systems, entangled initial states are thought necessary to achieve sub-shot-noise accuracies. This conclusion, although strictly true for systems of distinguishable particles, does no longer hold for systems of identical particles. Indeed, while quantum non-locality is necessary, it can be encoded into the interferometric apparatus and not into the initial states. In particular, no preliminary spin-squeezing is necessary to reach quantum performances in metrological applications of ultracold atom physics.Pubblicazioni consigliate
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