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W3021189306 abstract "It has been shown elsewhere that two spatially separated atoms can jointly absorb one photon, whose frequency is equal to the sum of the transition frequencies of the two atoms. We describe this process in the presence of an ensemble of many two-level atoms and show that it can be used to generate spin squeezing and entanglement. This resonant collective process allows us to create a sizable squeezing already at the single-photon limit. It represents a way to generate many-body spin-spin interactions, yielding a two-axis twisting-like interaction among the spins, which is very efficient for the generation of spin squeezing. We perform explicit calculations for ensembles of magnetic molecules coupled to a superconducting coplanar cavities. This system represents an attractive on-chip architecture for the realization of improved sensing." @default.
W3021189306 created "2020-05-13" @default.
W3021189306 creator A5002476954 @default.
W3021189306 creator A5018434243 @default.
W3021189306 creator A5048800312 @default.
W3021189306 creator A5077016881 @default.
W3021189306 date "2020-05-06" @default.
W3021189306 modified "2023-10-15" @default.
W3021189306 title "Spin squeezing by one-photon–two-atom excitation processes in atomic ensembles" @default.
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W3021189306 doi "https://doi.org/10.1103/physreva.101.053818" @default.
W3021189306 hasPublicationYear "2020" @default.
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