Proposes Rydberg ion crystals as quantum simulators for non-equilibrium exciton dynamics via strongly coupled electronic-state-dependent molecular potentials, illustrated with three ions and scalable to hundreds.
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A nonlinear criterion detects coherence transfer in quantum networks with only two measurements of network-state populations, remaining valid even with uncharacterized checkpoint nodes, and is experimentally shown in four- and six-photon entanglement networks.
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Non-equilibrium exciton dynamics in tailored molecular potentials of Rydberg ion crystals
Proposes Rydberg ion crystals as quantum simulators for non-equilibrium exciton dynamics via strongly coupled electronic-state-dependent molecular potentials, illustrated with three ions and scalable to hundreds.
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Coherence Transfer in Quantum Networks
A nonlinear criterion detects coherence transfer in quantum networks with only two measurements of network-state populations, remaining valid even with uncharacterized checkpoint nodes, and is experimentally shown in four- and six-photon entanglement networks.