Litcius/Paper detail

Cavity sub- and superradiance for transversely driven atomic ensembles

Christoph Hotter, Laurin Ostermann, Helmut Ritsch

2023Physical Review Research26 citationsDOIOpen Access PDF

Abstract

Large atomic ensembles coupled to a single optical resonator mode can be steered to strongly enhanced or suppressed collective emission via phase controlled excitation. Employing the Tavis-Cummings model we find so far unreported phenomena. Using a second order cumulant expansion we predict that a homogeneously excited ensemble equally distributed between odd and even sites along the cavity mode is extremely subradiant as long as the average excitation remains below 50%, but shows pulsed emission for inversion. The combination of these two properties enables the implementation of an efficient cavity-enhanced Ramsey probing featuring a fast readout and minimal heating with particular advantages for atomic clock transitions. For continuous illumination the nonlinear atom-field interaction induces regular superradiant self-pulsing. Additionally, we observe an increased pulse delay time in comparison to an excitation through the cavity.

Topics & Concepts

ExcitationExcited stateSuperradiancePhysicsResonatorAtomic physicsOptical cavityAtom (system on chip)LaserOpticsQuantum mechanicsComputer scienceEmbedded systemQuantum optics and atomic interactionsMechanical and Optical ResonatorsAdvanced Fiber Laser Technologies