Experimental demonstration of higher-order photon correlations controlled by the number of quantum emitters in a waveguide QED system, scaling to three emitters.
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3 Pith papers cite this work, alongside 25 external citations. Polarity classification is still indexing.
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Theoretical derivation of the full two-photon dispersion ω(K) in chiral waveguide QED, revealing bound, antibound, resonance states across all K with gapless real part and applicability to finite arrays.
PairInteraction software now implements MQDT and Green's tensor methods for accurate Rydberg atom modeling, with 10x faster pair-potential calculations and good experimental agreement on ytterbium Stark maps.
citing papers explorer
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Realization of waveguide many-body quantum optics
Experimental demonstration of higher-order photon correlations controlled by the number of quantum emitters in a waveguide QED system, scaling to three emitters.
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Bound, antibound and resonance two-photon states in chiral waveguide QED
Theoretical derivation of the full two-photon dispersion ω(K) in chiral waveguide QED, revealing bound, antibound, resonance states across all K with gapless real part and applicability to finite arrays.
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Accurate Modeling of Rydberg Atoms and Their Interactions: Theory and Implementation in PairInteraction
PairInteraction software now implements MQDT and Green's tensor methods for accurate Rydberg atom modeling, with 10x faster pair-potential calculations and good experimental agreement on ytterbium Stark maps.