We investigate nonlocal quantum correlations arising between multiple two-level impurity atoms coupled to an ultracold bosonic gas. Genuine multipartite nonlocality is observed in a system of three impurities, and non-Markovian effects and the persistence of coherences in the impurity subsystem are crucial for preventing complete loss of nonlocality and allowing for nonlocal correlations to be generated and maintained for extended periods of time.
We investigate nonlocal quantum correlations arising between multiple two-level impurity atoms coupled to an ultracold bosonic gas. We find that the environment-induced dynamics of the impurity sub-system can generate nonlocal states that are robust against noise and violate a multipartite Bell inequality when projective spin measurements are made. Genuine multipartite nonlocality is also observed in a system of three impurities. We show that non-Markovian effects, and the persistence of coherences in the impurity subsystem, are crucial for preventing complete loss of nonlocality and allow for nonlocal correlations to be generated and maintained for ex-tended periods of time.
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