Readout-delay-free Bragg atom interferometry using overlapped spatial fringes

P. B. Wigley; K. S. Hardman; C. Freier; P. J. Everitt; S. Legge; P. Manju; J. D. Close; N. P. Robins

doi:10.1103/PhysRevA.99.023615

Readout-delay-free Bragg atom interferometry using overlapped spatial fringes

P. B. Wigley, K. S. Hardman, C. Freier, P. J. Everitt, S. Legge, P. Manju, J. D. Close, N. P. Robins

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9 Citations (Scopus)

Abstract

A method for mitigating the readout delay characteristic of Bragg-based atom interferometry is presented, utilizing an asymmetric Mach-Zehnder interferometer sequence to generate spatial fringes that are read out while still overlapped. The time of flight after the final beamsplitter is engineered to facilitate constructive overlap of the fringes on the output states. A noise analysis performed using a precision atom interferometer is presented, comparing the traditional separated symmetric scheme with that of the separated and overlapped asymmetric scheme showing no significant increase in short-term phase noise.

Original language	English
Article number	023615
Journal	Physical Review A
Volume	99
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.99.023615
Publication status	Published - 11 Feb 2019

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title = "Readout-delay-free Bragg atom interferometry using overlapped spatial fringes",

abstract = "A method for mitigating the readout delay characteristic of Bragg-based atom interferometry is presented, utilizing an asymmetric Mach-Zehnder interferometer sequence to generate spatial fringes that are read out while still overlapped. The time of flight after the final beamsplitter is engineered to facilitate constructive overlap of the fringes on the output states. A noise analysis performed using a precision atom interferometer is presented, comparing the traditional separated symmetric scheme with that of the separated and overlapped asymmetric scheme showing no significant increase in short-term phase noise.",

author = "Wigley, {P. B.} and Hardman, {K. S.} and C. Freier and Everitt, {P. J.} and S. Legge and P. Manju and Close, {J. D.} and Robins, {N. P.}",

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AU - Manju, P.

AU - Close, J. D.

AU - Robins, N. P.

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Readout-delay-free Bragg atom interferometry using overlapped spatial fringes

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