Conical intersections in an ultracold gas
Abstract
We find that energy surfaces of more than two atoms or molecules interacting via dipole-dipole po- tentials generically possess conical intersections (CIs). Typically only few atoms participate strongly in such an intersection. For the fundamental case, a circular trimer, we show how the CI affects adiabatic excitation transport via electronic decoherence or geometric phase interference. These phe- nomena may be experimentally accessible if the trimer is realized by light alkali atoms in a ring trap, whose dipole-dipole interactions are induced by off-resonant dressing with Rydberg states. Such a setup promises a direct probe of the full many-body density dynamics near a conical intersection.
Cite
@article{arxiv.1011.5489,
title = {Conical intersections in an ultracold gas},
author = {S. Wüster and A. Eisfeld and J. M. Rost},
journal= {arXiv preprint arXiv:1011.5489},
year = {2013}
}
Comments
4 pages, 4 figures, replacement to add archive reference