In partic- ular, the dark-state population can be distinguished from the ground state|0,g,g⟩by detecting the excited-state probability of the two atoms

(2)⟩will be a signature for the existence of the dark state, this feature can be used to characterize the dark-state effect

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Harnessing dark states: coherent control in coupled cavity-Rydberg-atom systems

quant-ph · 2026-04-09 · unverdicted · novelty 5.0

Dark states are derived for two-to-four atom cases and the single-excitation subspace of general N-atom cavity-Rydberg systems, with a characterization method via state populations.

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Harnessing dark states: coherent control in coupled cavity-Rydberg-atom systems quant-ph · 2026-04-09 · unverdicted · none · ref 21
Dark states are derived for two-to-four atom cases and the single-excitation subspace of general N-atom cavity-Rydberg systems, with a characterization method via state populations.

In partic- ular, the dark-state population can be distinguished from the ground state|0,g,g⟩by detecting the excited-state probability of the two atoms

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