Nanophotonic cavity QED with individually trapped atoms

Paloma Ocola; Tamara Dordevic; Polnop Samutpraphoot; Hannes Bernien; Crystal Senko; Sylvain Schwartz; Alexander Zibrov; Vladan Vuletic; Mikhail Lukin

Nanophotonic cavity QED with individually trapped atoms

POSTER

Abstract

The realization of strong atom-photon interactions is a central theme in quantum optics and an essential prerequisite for future quantum applications. We achieve such interactions using a hybrid system of neutral atoms and optical photons coupled via a nanoscale photonic crystal waveguide cavity [1]. Here, we demonstrate strong coupling between the cavity and two individual atoms trapped in optical tweezers. Our experimental effort aims at creating entangled states between two atoms using interactions mediated by cavity photons--a cornerstone for building scalable quantum gates [2]. [1] J. D. Thompson, T. G. Tiecke, N. P. de Leon, J. Feist, A. V. Akimov, M. Gullans, A. S. Zibrov, V. Vuletić, and M. D. Lukin, Science 340, 1202 (2013) [2] T. G. Tiecke, J. D. Thompson, N. P. de Leon, L. R. Liu, V. Vuletic and M. D. Lukin, Nature 508, 241 (2014)

Authors

Paloma Ocola
- Harvard University
Tamara Dordevic
- Harvard University
Polnop Samutpraphoot
- Harvard University
Hannes Bernien
- Harvard University
Crystal Senko
- University of Waterloo
Sylvain Schwartz
- Harvard University
Alexander Zibrov
- Harvard University
Vladan Vuletic
- MIT
Mikhail Lukin
- Harvard University