We propose and analyze a method that allows for the production of squeezed states of the atomic centerof- mass motion that can be injected into an atom interferometer. Our scheme employs dispersive probing in a ring resonator on a narrow transition in order to provide a collective measurement of the relative population of two momentum states. We show that this method is applicable to a Bragg diffraction-based strontium atom interferometer with large diffraction orders. This technique can be extended also to small diffraction orders and large atom numbers N by inducing atomic transparency at the frequency of the probe field, reaching an interferometer phase resolution scaling Δϕ ∼ N^(-3/4). We show that for realistic parameters it is possible to obtain a 20 dB gain in interferometer phase estimation compared to the standard quantum limit. Our method is applicable to other atomic species where a narrow transition is available or can be synthesized.
Squeezing on Momentum States for Atom Interferometry / Salvi, Leonardo; Poli, Nicola; Vuletić, Vladan; Tino, Guglielmo M.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - STAMPA. - 120:(2018), pp. 0336011-0336015. [10.1103/PhysRevLett.120.033601]
Squeezing on Momentum States for Atom Interferometry
Salvi, Leonardo;Poli, Nicola;Tino, Guglielmo M.
2018
Abstract
We propose and analyze a method that allows for the production of squeezed states of the atomic centerof- mass motion that can be injected into an atom interferometer. Our scheme employs dispersive probing in a ring resonator on a narrow transition in order to provide a collective measurement of the relative population of two momentum states. We show that this method is applicable to a Bragg diffraction-based strontium atom interferometer with large diffraction orders. This technique can be extended also to small diffraction orders and large atom numbers N by inducing atomic transparency at the frequency of the probe field, reaching an interferometer phase resolution scaling Δϕ ∼ N^(-3/4). We show that for realistic parameters it is possible to obtain a 20 dB gain in interferometer phase estimation compared to the standard quantum limit. Our method is applicable to other atomic species where a narrow transition is available or can be synthesized.
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