Trapping and Manipulation of Laser-Cooled Metastable Argon Atoms at a Surface
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This thesis discusses experiments on the all-optical trapping and manipulation of laser-cooled metastable argon atoms at a surface.
A magneto-optical surface trap (MOST) has been realized and studied. This novel hybrid trap combines a magneto-optical trap at a metallic surface with an optical evanescent-wave atom mirror. It allows for laser-cooling and trapping of atoms in contact
with an evanescent light field that separates the atomic cloud from the surface by a fraction of an optical wavelength.
Based on this work, the continuous loading of a planar matter waveguide has been demonstrated. Loading into the waveguide, which was formed by the optical potential
of a red-detuned standing light wave above the surface, was achieved via evanescent-field optical pumping from the MOST in sub-µm distance from the surface.
In subsequent experiments, several light-induced atom-optical elements have been demonstrated in the planar waveguide geometry, including a continuous atom source, a switchable channel guide, an atom detector and an optical surface lattice. The source, the channel and the detector have been combined to form a simple
atom-optical integrated circuit.
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SCHNEBLE, Dominik, 2002. Trapping and Manipulation of Laser-Cooled Metastable Argon Atoms at a Surface [Dissertation]. Konstanz: University of Konstanz. Allensbach : UFO Atelier für Gestaltung & Verlag. ISBN 3-935511-14-0BibTex
@phdthesis{Schneble2002Trapp-5061, year={2002}, publisher={Allensbach : UFO Atelier für Gestaltung & Verlag}, title={Trapping and Manipulation of Laser-Cooled Metastable Argon Atoms at a Surface}, author={Schneble, Dominik}, note={UFO Dissertation Band 413}, address={Konstanz}, school={Universität Konstanz} }
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