Nonlinear photon-atom coupling with 4Pi microscopy
Abstract
Implementing nonlinear interactions between single photons and single atoms is at the forefront of optical physics. Motivated by the prospects of deterministic all-optical quantum logic, many efforts are currently underway to find suitable experimental techniques. Focusing the incident photons onto the atom with a lens yielded promising results, but is limited by diffraction to moderate interaction strengths. However, techniques to exceed the diffraction limit are known from high-resolution imaging. In this work, we adapt a super-resolution imaging technique, 4Pi microscopy, to efficiently couple light to a single atom. We observe 36.6(3)% extinction of the incident field, and a modified photon statistics of the transmitted field -- indicating nonlinear interaction at the single-photon level.
Cite
@article{arxiv.1705.10173,
title = {Nonlinear photon-atom coupling with 4Pi microscopy},
author = {Yue-Sum Chin and Matthias Steiner and Christian Kurtsiefer},
journal= {arXiv preprint arXiv:1705.10173},
year = {2017}
}
Comments
8 pages, 8 figures