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Multicell Atomic Quantum Memory as a Hardware-Efficient Quantum Repeater Node

C. Li, S. Zhang, Y.-K. Wu, N. Jiang, Y.-F. Pu, L.-M. Duan

2021PRX Quantum19 citationsDOIOpen Access PDF

Abstract

For scalable quantum communication and networks, a key step is to realize a quantum repeater node that can efficiently connect different segments of atom-photon entanglement using quantum memories. We report a compact and hardware-efficient realization of a quantum repeater node using a single atomic ensemble for multicell quantum memories. A millisecond lifetime is achieved for individual memory cells after suppressing the magnetic-field-induced inhomogeneous broadening and the atomic-motioninduced spin-wave dephasing. Based on these long-lived memory cells, we achieve heralded asynchronous entanglement generation in two quantum repeater segments one after another and then an on-demand entanglement connection of these two repeater segments. As another application of the multicell atomic quantum memory, we further demonstrate storage and on-demand retrieval of heralded atomic spin-wave qubits by implementing a random access quantum memory with individual addressing capacity. This work provides a promising constituent for efficient realization of quantum repeaters for large-scale quantum networks.

Topics & Concepts

Quantum entanglementRepeater (horology)Quantum networkPhysicsQuantum sensorQuantum informationQubitQuantumQuantum information scienceQuantum technologyQuantum teleportationQuantum channelRealization (probability)Quantum computerQuantum capacityComputer scienceQuantum mechanicsQuantum error correctionNode (physics)Electronic engineeringQuantum circuitQuantum metrologyPhotonicsTopology (electrical circuits)Quantum optics and atomic interactionsQuantum Information and CryptographyQuantum and electron transport phenomena
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