Paired-atom laser beams created via four-wave mixing

R. G. Dall; L. J. Byron; A. G. Truscott; G. R. Dennis; M. T. Johnsson; J. J. Hope

doi:10.1103/PhysRevA.79.011601

Paired-atom laser beams created via four-wave mixing

R. G. Dall, L. J. Byron, A. G. Truscott, G. R. Dennis, M. T. Johnsson, J. J. Hope

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

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Abstract

A method to create paired-atom laser beams from a metastable helium atom laser via four-wave mixing is demonstrated. Radio-frequency outcoupling is used to extract atoms from a Bose-Einstein condensate near the center of the condensate and initiate scattering between trapped and untrapped atoms. The unequal strengths of the interactions for different internal states allows an energy-momentum resonance which leads to the creation of pairs of atoms scattered from the zero-velocity condensate. The resulting scattered beams are well separated from the main atom laser in the two-dimensional transverse atom laser profile. Numerical simulations of the system are in good agreement with the observed atom laser spatial profiles and indicate that the scattered beams are generated by a four-wave mixing process, suggesting that the beams are correlated.

Original language	English
Article number	011601
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	79
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.79.011601
Publication status	Published - 5 Jan 2009

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AU - Johnsson, M. T.

AU - Hope, J. J.

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N2 - A method to create paired-atom laser beams from a metastable helium atom laser via four-wave mixing is demonstrated. Radio-frequency outcoupling is used to extract atoms from a Bose-Einstein condensate near the center of the condensate and initiate scattering between trapped and untrapped atoms. The unequal strengths of the interactions for different internal states allows an energy-momentum resonance which leads to the creation of pairs of atoms scattered from the zero-velocity condensate. The resulting scattered beams are well separated from the main atom laser in the two-dimensional transverse atom laser profile. Numerical simulations of the system are in good agreement with the observed atom laser spatial profiles and indicate that the scattered beams are generated by a four-wave mixing process, suggesting that the beams are correlated.

AB - A method to create paired-atom laser beams from a metastable helium atom laser via four-wave mixing is demonstrated. Radio-frequency outcoupling is used to extract atoms from a Bose-Einstein condensate near the center of the condensate and initiate scattering between trapped and untrapped atoms. The unequal strengths of the interactions for different internal states allows an energy-momentum resonance which leads to the creation of pairs of atoms scattered from the zero-velocity condensate. The resulting scattered beams are well separated from the main atom laser in the two-dimensional transverse atom laser profile. Numerical simulations of the system are in good agreement with the observed atom laser spatial profiles and indicate that the scattered beams are generated by a four-wave mixing process, suggesting that the beams are correlated.

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Paired-atom laser beams created via four-wave mixing

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