Description: Preparation and microwave/optical manipulation of long-lived circular Rydberg atom states coupled to high-Q cavities for quantum-limited field sensing and quantum non-demolition measurements.
Dotsenko is a permanent member of LKB's Rydberg-atom cavity-QED team (successor to Haroche/Brune's circular-Rydberg-atom programme), using long-lived circular Rydberg states strongly coupled to microwave photons in high-Q cavities for quantum non-demolition measurement, entanglement generation, and microwave-photon-number quantum sensing.
Gleyzes is a CNRS researcher in the Rydberg Atoms team at LKB (successor to Serge Haroche's cavity-QED group), where he achieved the first quantum non-demolition detection of a single microwave photon. The team now prepares non-classical states of circular Rydberg atoms as probes for electric- and magnetic-field sensing below the standard quantum limit, uses quantum optimal control to navigate large Rydberg Hilbert spaces, and has demonstrated millisecond-lived circular states at room temperature, a route toward practical Rydberg-atom quantum sensors and simulators.
Sayrin works on circular Rydberg-atom cavity QED at LKB, developing microwave-photon quantum-non-demolition detection and feedback-based quantum control protocols that build on the cavity-QED foundations pioneered by Haroche and Brune's team.