The paper experimentally demonstrates that antibunched resonance fluorescence from a single trapped atom contains time-bin-entangled photon pairs, verified by CHSH Bell inequality violation and two-photon density matrix reconstruction, with correlations vanishing beyond the antibunching timescale.
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quant-ph 2years
2025 2verdicts
UNVERDICTED 2representative citing papers
A scheme for nonreciprocal single-photon routing in an atom-dimer waveguide-QED system achieves complete transmission control via chiral asymmetry without requiring ideal chirality in the non-Markovian regime.
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On the Relationship Between Antibunching and Entanglement in Resonance Fluorescence
The paper experimentally demonstrates that antibunched resonance fluorescence from a single trapped atom contains time-bin-entangled photon pairs, verified by CHSH Bell inequality violation and two-photon density matrix reconstruction, with correlations vanishing beyond the antibunching timescale.
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Nonreciprocal routing induced by chirality in an atom-dimer waveguide-QED system
A scheme for nonreciprocal single-photon routing in an atom-dimer waveguide-QED system achieves complete transmission control via chiral asymmetry without requiring ideal chirality in the non-Markovian regime.