Technique - (2) Rydberg-dressed photon-photon interaction engineering

Type: Experimental

Description: Cold atoms coupled to optical cavities and Rydberg states to engineer strong effective photon-photon interactions and synthetic photonic matter.

Department(s)/lab(s): Physics | Simon Lab @ Stanford
Summary:

Simon's lab engineers strong, atom-mediated interactions between photons in optical cavities -- using Rydberg dressing of intracavity atoms -- to synthesize interacting quantum photonic matter and study fundamental nonclassical light phenomena, effectively building tunable many-body systems out of light itself.

Department(s)/lab(s): Physics | Experimental Atomic Physics Group (Vuletic Lab) @ MIT
Summary:

PREFERRED. Vuletic's group generates large-scale spin squeezing and entanglement in cold and ultracold atomic ensembles to push optical atomic clocks and rotation/field sensors below the standard quantum limit, alongside work on cavity QED, Rydberg tweezer arrays, and nonlinear quantum optics at the single-photon level. Recent work includes cavity-feedback spin squeezing for ytterbium clocks and fault-tolerant neutral-atom quantum sensor/processor arrays with collaborators at Harvard.