Cold Atom Physics Using Ultra-Thin Optical Fibers: Light-Induced Dipole Forces and Surface Interactions
Quantum Physics
2009-11-13 v4
Abstract
The strong evanescent field around ultra-thin unclad optical fibers bears a high potential for detecting, trapping, and manipulating cold atoms. Introducing such a fiber into a cold atom cloud, we investigate the interaction of a small number of cold Caesium atoms with the guided fiber mode and with the fiber surface. Using high resolution spectroscopy, we observe and analyze light-induced dipole forces, van der Waals interaction, and a significant enhancement of the spontaneous emission rate of the atoms. The latter can be assigned to the modification of the vacuum modes by the fiber.
Cite
@article{arxiv.quant-ph/0701167,
title = {Cold Atom Physics Using Ultra-Thin Optical Fibers: Light-Induced Dipole Forces and Surface Interactions},
author = {G. Sagué and E. Vetsch and W. Alt and D. Meschede and A. Rauschenbeutel},
journal= {arXiv preprint arXiv:quant-ph/0701167},
year = {2009}
}
Comments
4 pages, 4 figures