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Efficient state-symmetric beamsplitters and mirrors for atom interferometers using optimized pulses

Efficient state-symmetric beamsplitters and mirrors for atom interferometers using optimized pulses
Efficient state-symmetric beamsplitters and mirrors for atom interferometers using optimized pulses
Atom interferometers that employ atoms in superpositions of different electronic states are sensitive to any noise that affects these superposed states differently. Resilience to such noise results from using superpositions where the atomic states differ in momentum only, but implementation of such 'state-symmetric' diffraction can lead to population loss into unwanted states and restricts the atomic velocity acceptance of the interferometer. In this paper, by varying the laser intensities and phases as functions of time, we present optimized pulses designed for use in state-symmetric interferometers that overcome these restrictions. We extend this optimization to multi-pulse sequences designed to increase the interferometer area and demonstrate significant improvements in the fringe visibility compared with sequences of π/2 and π pulses. We discuss the limits on the temperature of the atomic source required for efficient atomic diffraction and show how optimized pulse sequences enable efficient diffraction with considerably warmer clouds, hence reducing the need for velocity selection and increasing the measurement signal-to-noise ratio.
Saywell, Jack
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Carey, Max
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Dedes, Nikolaos
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Kuprov, Ilya
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Freegarde, Tim
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Saywell, Jack
bdee14ca-2df7-495b-8c38-91f539c6b7fd
Carey, Max
c2b2911d-e3a9-4537-b16e-9bbfd3b68c6c
Dedes, Nikolaos
aa6b8f4d-bd3a-4b1c-834d-14126ddba38f
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Freegarde, Tim
01a5f53b-d406-44fb-a166-d8da9128ea7d

Saywell, Jack, Carey, Max, Dedes, Nikolaos, Kuprov, Ilya and Freegarde, Tim (2022) Efficient state-symmetric beamsplitters and mirrors for atom interferometers using optimized pulses. Journal of Physics B: Atomic, Molecular and Optical Physics, 55 (20), [205501]. (doi:10.1088/1361-6455/ac8cc3).

Record type: Article

Abstract

Atom interferometers that employ atoms in superpositions of different electronic states are sensitive to any noise that affects these superposed states differently. Resilience to such noise results from using superpositions where the atomic states differ in momentum only, but implementation of such 'state-symmetric' diffraction can lead to population loss into unwanted states and restricts the atomic velocity acceptance of the interferometer. In this paper, by varying the laser intensities and phases as functions of time, we present optimized pulses designed for use in state-symmetric interferometers that overcome these restrictions. We extend this optimization to multi-pulse sequences designed to increase the interferometer area and demonstrate significant improvements in the fringe visibility compared with sequences of π/2 and π pulses. We discuss the limits on the temperature of the atomic source required for efficient atomic diffraction and show how optimized pulse sequences enable efficient diffraction with considerably warmer clouds, hence reducing the need for velocity selection and increasing the measurement signal-to-noise ratio.

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Saywell_2022_J._Phys._B__At._Mol._Opt._Phys._55_205501 - Version of Record
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Accepted/In Press date: 25 August 2022
e-pub ahead of print date: 15 September 2022
Published date: 19 October 2022
Additional Information: The authors gratefully acknowledge funding from the UK Engineering and Physical Sciences Research Council under Grants EP/T517859/1, EP/T001046/1 and (ND) for an EPSRC/Thales UK iCASE award EP/T517604/1.
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Identifiers

Local EPrints ID: 477100
URI: http://eprints.soton.ac.uk/id/eprint/477100
DOI: doi:10.1088/1361-6455/ac8cc3
PURE UUID: abb35de7-2f30-4a74-9493-0e1956a28152
ORCID for Jack Saywell: ORCID iD orcid.org/0000-0002-7867-2128
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682
ORCID for Tim Freegarde: ORCID iD orcid.org/0000-0002-0680-1330

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Date deposited: 26 May 2023 16:33
Last modified: 17 Mar 2024 03:28

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Contributors

Author: Jack Saywell ORCID iD
Author: Max Carey
Author: Nikolaos Dedes
Author: Ilya Kuprov ORCID iD
Author: Tim Freegarde ORCID iD

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