Single ultracold rubidium atom trapped in the evanescent field of an integrated silicon-nitride microring resonator, achieving single-atom cooperativity exceeding unity.
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A self-consistent input-output approach eliminates cavity modes in non-adiabatic CQED to yield an effective two-level atom model with non-Markovian decoherence captured by an effective Lindblad equation having positive and negative rates.
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Single-atom trapping in the evanescent field of an integrated photonic resonator
Single ultracold rubidium atom trapped in the evanescent field of an integrated silicon-nitride microring resonator, achieving single-atom cooperativity exceeding unity.
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Cavity elimination in cavity-QED: a self-consistent input-output approach
A self-consistent input-output approach eliminates cavity modes in non-adiabatic CQED to yield an effective two-level atom model with non-Markovian decoherence captured by an effective Lindblad equation having positive and negative rates.