Strong Coupling between Warm Rubidium Vapor and Microcavities on an Integrated Photonic Chip

Second-generation quantum technologies in quantum information processing, quantum communication, and quantum sensing require the ability to coherently control the interaction between light and matter. We have developed a practical and scalable platform interfacing warm rubidium vapor with an integrated photonic microcavity to realize the strong coupling regime of cavity QED. We observed normal mode splitting, signaling the hybridization of a microring cavity mode with rubidium D-lines at a vapor temperature of 100 ^oC, which is equivalent to ~ 50 atoms interacting with the cavity mode (on average). We will present further studies of various cavity geometries such as slot-rings and photonic crystal rings that maximize the fraction of the cavity mode that interacts with the vapor as well as reduce the cavity mode volume, which together pave the way towards strongly-coupled single atom-single photon operation.