In a minimal model of partially pumped atomic ensembles, collective dissipation induces interference that allows tuning linewidth from size-independent to extensive and photon statistics from antibunched to bunched via phase and pump rate.
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A two-photon Jaynes-Cummings model with the resonator as emitter converts a one-photon-average coherent pulse into a single-photon pulse with efficiency, purity, and indistinguishability above 90 percent while remaining robust to atomic dephasing.
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One knob to tune them all: Phase-controlled photon statistics and linewidth in partially pumped atomic ensembles
In a minimal model of partially pumped atomic ensembles, collective dissipation induces interference that allows tuning linewidth from size-independent to extensive and photon statistics from antibunched to bunched via phase and pump rate.
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Quantum Resonator as a Directional Quantum Emitter
A two-photon Jaynes-Cummings model with the resonator as emitter converts a one-photon-average coherent pulse into a single-photon pulse with efficiency, purity, and indistinguishability above 90 percent while remaining robust to atomic dephasing.
- Photon blockade via three-body interactions: toward high-purity and bright single-photon sources