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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Near-field probing of trapped atoms is inherently transient due to probe-induced heating that reduces coupling strength via increased position spread.
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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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Limits of Stable Near-Field Probing in Nanophotonic Traps
Near-field probing of trapped atoms is inherently transient due to probe-induced heating that reduces coupling strength via increased position spread.