Laser cooling of a magnetically guided ultra cold atom beam

We report on the transverse laser cooling of a magnetically guided beam of ultra cold chromium atoms. Radial compression by a tapering of the guide is employed to adiabatically heat the beam. Inside the tapered section heat is extracted from the atom beam by a two-dimensional optical molasses perpen...

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Bibliographic Details
Published in:arXiv.org 2010-02
Main Authors: Aghajani-Talesh, Anoush, Falkenau, Markus, Volchkov, Valentin V, Trafford, Leah E, Pfau, Tilman, Griesmaier, Axel
Format: Article
Language:English
Subjects:
Chromium
Cooling
Laser beams
Laser cooling
Molasses
Optical pumping
Space density
Tapering
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Summary:We report on the transverse laser cooling of a magnetically guided beam of ultra cold chromium atoms. Radial compression by a tapering of the guide is employed to adiabatically heat the beam. Inside the tapered section heat is extracted from the atom beam by a two-dimensional optical molasses perpendicular to it, resulting in a significant increase of atomic phase space density. A magnetic offset field is applied to prevent optical pumping to untrapped states. Our results demonstrate that by a suitable choice of the magnetic offset field, the cooling beam intensity and detuning, atom losses and longitudinal heating can be avoided. Final temperatures below 65 microkelvin have been achieved, corresponding to an increase of phase space density in the guided beam by more than a factor of 30.
ISSN:2331-8422
DOI:10.48550/arxiv.1002.0233