Cavity-mediated long-range interactions in Dirac materials induce an excitonic insulator below N_f = 16/π or a non-Fermi-liquid regime above it, with dynamic lifting of Landau level degeneracy under magnetic field.
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A theoretical cavity QED scheme using ultrastrong atom-cavity coupling and dual driving fields yields single-photon sources with g^(2)(0) ~ 10^-8, indistinguishability ~99%, and purity ~99.99%.
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Cavity-Induced Excitonic Insulation and Non-Fermi-Liquid Behavior in Dirac Materials
Cavity-mediated long-range interactions in Dirac materials induce an excitonic insulator below N_f = 16/π or a non-Fermi-liquid regime above it, with dynamic lifting of Landau level degeneracy under magnetic field.
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Near-Perfect Single-Photon Source via Ultrastrong Coupling
A theoretical cavity QED scheme using ultrastrong atom-cavity coupling and dual driving fields yields single-photon sources with g^(2)(0) ~ 10^-8, indistinguishability ~99%, and purity ~99.99%.