A two-state Raman coupler for coherent atom optics

J. E. Debs; D. Döring; N. P. Robins; C. Figl; P. A. Altin; J. D. Close

doi:10.1364/OE.17.002319

A two-state Raman coupler for coherent atom optics

J. E. Debs, D. Döring, N. P. Robins, C. Figl, P. A. Altin, J. D. Close

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

We present results on a Raman laser-system that resonantly drives a closed two-photon transition between two levels in different hyperfine ground states of ⁸⁷Rb. The coupler is based on a novel optical design for producing two phase-coherent optical beams to drive a Raman transition. Operated as an outcoupler, it produces an atom laser in a single internal atomic state, with the lower divergence and increased brightness typical of a Raman outcoupler. Due to the optical nature of the outcoupling, the two-state outcoupler is an ideal candidate for transferring photon correlations onto atom-laser beams. As our laser system couples just two hyperfine ground states, it has also been used as an internal state beamsplitter, taking the next major step towards free space Ramsey interferometry with an atom laser.

Original language	English
Pages (from-to)	2319-2325
Number of pages	7
Journal	Optics Express
Volume	17
Issue number	4
DOIs	https://doi.org/10.1364/OE.17.002319
Publication status	Published - 16 Feb 2009

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abstract = "We present results on a Raman laser-system that resonantly drives a closed two-photon transition between two levels in different hyperfine ground states of 87Rb. The coupler is based on a novel optical design for producing two phase-coherent optical beams to drive a Raman transition. Operated as an outcoupler, it produces an atom laser in a single internal atomic state, with the lower divergence and increased brightness typical of a Raman outcoupler. Due to the optical nature of the outcoupling, the two-state outcoupler is an ideal candidate for transferring photon correlations onto atom-laser beams. As our laser system couples just two hyperfine ground states, it has also been used as an internal state beamsplitter, taking the next major step towards free space Ramsey interferometry with an atom laser.",

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AU - Döring, D.

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AU - Figl, C.

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AU - Close, J. D.

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AB - We present results on a Raman laser-system that resonantly drives a closed two-photon transition between two levels in different hyperfine ground states of 87Rb. The coupler is based on a novel optical design for producing two phase-coherent optical beams to drive a Raman transition. Operated as an outcoupler, it produces an atom laser in a single internal atomic state, with the lower divergence and increased brightness typical of a Raman outcoupler. Due to the optical nature of the outcoupling, the two-state outcoupler is an ideal candidate for transferring photon correlations onto atom-laser beams. As our laser system couples just two hyperfine ground states, it has also been used as an internal state beamsplitter, taking the next major step towards free space Ramsey interferometry with an atom laser.

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A two-state Raman coupler for coherent atom optics

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