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Dissipation-engineered family of nearly dark states in many-body cavity-atom systems

Three-level atomic systems coupled to light have the capacity to host dark states. We study a system of V-shaped three-level atoms coherently coupled to the two quadratures of a dissipative cavity. The interplay between the atomic level structure and dissipation makes the phase diagram of the open system drastically different from the closed one. In particular, it leads to the stabilization of a continuous family of dark and nearly dark excited many-body states with inverted atomic populations as the steady states. The multistability of these states can be probed via their distinct fluctuations and excitation spectra, as well as the system's Liouvillian dynamics which are highly sensitive to ramp protocols. Our model can be implemented experimentally by encoding the two higher-energy modes in orthogonal density-modulated states in a bosonic quantum gas. This implementation offers prospects for potential applications like the realization of quantum optical random walks and microscopy with subwavelength spatial resolution.

preprint2022arXivOpen access
Rui LinRodrigo Rosa-MedinaFrancesco FerriFabian FingerKatrin KroegerTobias DonnerTilman EsslingerR. Chitra
cond-mat.quant-gas
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Rui LinRodrigo Rosa-MedinaFrancesco FerriFabian FingerKatrin KroegerTobias DonnerTilman EsslingerR. Chitra

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