Qubit syndrome measurements with a high fidelity Rb-Cs Rydberg gate
Abstract
We demonstrate an inter-species entangling Rydberg gate between rubidium (Rb) and cesium (Cs) atoms with fidelity F = 0.975 0.002. The two-species atom array enables in-place quantum non-demolition (QND) qubit measurements which are a key capability for quantum error correction. We demonstrate this functionality with multi-atom error syndrome measurements achieving QND measurement fidelities of F QND = 0.933(12) and 0.865(17) for two- and three-qubit plaquettes, respectively.
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