Fast Preparation and Detection of a Rydberg Qubit Using Atomic Ensembles

Fast Preparation and Detection of a Rydberg Qubit Using Atomic Ensembles

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We demonstrate a new approach for fast preparation, manipulation, and collective readout of an atomic Rydberg-state qubit. By making use of Rydberg blockade inside a small atomic ensemble, we prepare a single qubit within 3  μs with a success probability of F_{p}=0.93±0.02, rotate it, and read out i...

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Main Authors: Xu, Wenchao (Author), Venkatramani, Aditya V. (Author), Cantú, Sergio H. (Author), Šumarac, Tamara (Author), Klüsener, Valentin (Author), Lukin, Mikhail D. (Author), Vuletić, Vladan (Author)
Format: Article
Language:English
Published: American Physical Society (APS), 2022-05-31T19:18:34Z.
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Summary:We demonstrate a new approach for fast preparation, manipulation, and collective readout of an atomic Rydberg-state qubit. By making use of Rydberg blockade inside a small atomic ensemble, we prepare a single qubit within 3  μs with a success probability of F_{p}=0.93±0.02, rotate it, and read out its state in 6  μs with a single-shot fidelity of F_{d}=0.92±0.04. The ensemble-assisted detection is 10^{3} times faster than imaging of a single atom with the same optical resolution, and enables fast repeated nondestructive measurement. We observe qubit coherence times of 15  μs, much longer than the π rotation time of 90 ns. Potential applications ranging from faster quantum information processing in atom arrays to efficient implementation of quantum error correction are discussed.

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