Multi-Cell Traps for Registering of Cold Atom Clouds
Quantum Physics
2008-03-03 v1
Abstract
In this letter, the results on the development and simulation of new three-dimensional nanotraps for cold dressed atoms are considered. The traps are the multi-cell structures built by crossed non-touching carbon nanotubes. The trapping effect is tuned by the DC and RF currents to confine the strong- or low-potential seeking atoms far enough from the areas of strong Casimir-Polder and spin-flip forces. It is supposed that the developed and simulated multi-cell structures are pertinent for catching the Bose-Einstein condensates to demonstrate the Josephson effect, and to enable the study of the entanglement of confined clouds in three-dimensional nano-cells.
Cite
@article{arxiv.0802.4355,
title = {Multi-Cell Traps for Registering of Cold Atom Clouds},
author = {G. A. Kouzaev and K. J. Sand},
journal= {arXiv preprint arXiv:0802.4355},
year = {2008}
}
Comments
6 pages, 6 figures