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Q: Fachverband Quantenoptik und Photonik

Q 58: Quantum gases (Bosons) V

Q 58.4: Vortrag

Freitag, 13. März 2020, 12:00–12:15, e214

Continuous feedback on a quantum gas coupled to an optical cavity — •Rodrigo Rosa-Medina, Katrin Kroeger, Nishant Dogra, Marcin Paluch, Fabian Finger, Francesco Ferri, Tobias Donner, and Tilman Esslinger — Institute for Quantum Electronics, ETH Zurich, 8093 Zurich, Switzerland

Ultracold atoms constitute a highly versatile platform to study quantum many-body dynamics and phase transitions. In our experiment, we realize a driven-dissipative Dicke model by coupling a ⁸⁷Rb Bose-Einstein condensate (BEC) to a high-finesse optical cavity. The BEC is transversally pumped by a standing wave laser and photons are off-resonantly scattered into the cavity. Above a critical pump power, the system undergoes a phase transition into a superradiant state characterized by a self-organized modulation of the atomic density. Photons leaking out from the cavity provide natural channel for real-time, weak measurements of the system’s state.

We present the experimental realization of an active feedback scheme within the self-organized phase. By acting on the intensity of the pump field, we stabilize the mean intra-cavity photon number (n_ph). Our micro-controller based feedback architecture can sustain a wide range of constant photon numbers both deep inside the self-organized state (n_ph > 20) and close to the phase transition (n_ph < 0.2) for up to 4 seconds. Thereby, we can approach the phase transition with a high degree of control. Our experiments pave the way towards the realization of exotic many-body phases through tailored feedback schemes, such as limit cycles driven by delayed feedback or Floquet time crystals.