Chiral cavity quantum electrodynamics in a 3D microwave lattice coupled to a transmon qubit (Part 2)

Clai Owens; Margaret Panetta; Srivatsan Chakram; Brendan Saxberg; Gabrielle Roberts; Jonathan Simon; David I Schuster

Chiral cavity quantum electrodynamics in a 3D microwave lattice coupled to a transmon qubit (Part 2)

ORAL

Abstract

We have previously realized a chiral meta-material for microwave photons. We now describe our work combining a single transmon with this topological lattice, achieving, for the first time, a platform for chiral cavity quantum electrodynamics. We show strong coupling between the qubit and the topological lattice. Using the qubit we prepare arbitrary quantum states of the lattice edge modes and we can non-destructively measure their photon occupation. Finally, we describe a path towards coupling a transmon to each site of the lattice, enabling exploration of a Harper-Hubbard model which is anticipated to support fractional Chern insulating many-body phases.

March 4, 2020, 5:06 PM – March 4, 2020, 5:18 PM

Presenters

Clai Owens

Applied Physics, California Institute of Technology, California Institute of Technology

Authors

Clai Owens

Applied Physics, California Institute of Technology, California Institute of Technology
Margaret Panetta

Physics, University of Chicago, University of Chicago
Srivatsan Chakram

University of Chicago, Physics, University of Chicago
Brendan Saxberg

Physics, University of Chicago, University of Chicago
Gabrielle Roberts

Physics, University of Chicago, University of Chicago
Jonathan Simon

Physics, University of Chicago, University of Chicago
David I Schuster

University of Chicago, Physics, University of Chicago, Department of Physics and the James Franck Institute, University of Chicago, The James Franck Institute and Department of Physics, University of Chicago, The James Franck Institute and Department of Physics, The University of Chicago