Confinement-Induced Resonance with Weak Background Interaction
Abstract
We studied the scattering problem of two distinguishable atoms with unequal mass, where one atom (atom ) is trapped in a quasi-one-dimensional (quasi-1D) tube and the other one (atom ) is localized by a 3D harmonic trap. We show that in such a system if atom is much heavier than , confinement-induced resonance (CIR) can appear when the 3D -wave scattering length of these two atoms is much smaller than the characteristic lengths (CLs) of the confinements, for either or . This is quite different from the usual CIRs which occurs only when is comparable with the CL of confinement. Moreover, the CIRs we find are broad enough that can serve as a tool for the control of effective inter-atomic interaction. We further show the mechanism of these CIRs via the Born-Oppenheimer approximation. Our results can be used for the realization of strongly-interacting systems with ultracold atoms with weak 3D background interaction (i.e., small ), e.g., the realization of ultracold gases with strong spin-dependent interaction at zero magnetic fields.
Cite
@article{arxiv.1907.07382,
title = {Confinement-Induced Resonance with Weak Background Interaction},
author = {Ren Zhang and Peng Zhang},
journal= {arXiv preprint arXiv:1907.07382},
year = {2019}
}
Comments
9 pages, 5 figures