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Paper detail

Efficient, Tightly-Confined Trapping of 226Ra

We demonstrate a technique for transferring $^{226}$Ra atoms from a 3-dimensional magneto-optical-trap (MOT) into a standing wave optical dipole trap (ODT) in an adjacent chamber. The resulting small trapping volume (120 $μ$m in diameter) allows for high control of the electric and magnetic fields applied to the atoms. The atoms are first transferred to a traveling-wave optical dipole trap, which is then translated 46 cm to a science chamber. The atoms are subsequently transferred into an orthogonal standing-wave ODT by application of a 1-dimensional MOT along the traveling-wave axis. For each stage, transfer efficiencies exceeding 60% are demonstrated.

preprint2013arXivOpen access
R. H. ParkerM. R. DietrichK. BaileyJ. P. GreeneR. J. HoltM. R. KalitaW. KorschZ. -T. LuP. MuellerT. P. O'ConnorJ. SinghI. A. SulaiW. L. Trimble
physics.atom-ph
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R. H. ParkerM. R. DietrichK. BaileyJ. P. GreeneR. J. HoltM. R. KalitaW. KorschZ. -T. LuP. MuellerT. P. O'ConnorJ. SinghI. A. SulaiW. L. Trimble

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