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High-fidelity remote entanglement of trapped atoms mediated by time-bin photons

Author

Listed:
  • Sagnik Saha

    (Duke University)

  • Mikhail Shalaev

    (Duke University)

  • Jameson O’Reilly

    (Duke University)

  • Isabella Goetting

    (Duke University)

  • George Toh

    (Duke University)

  • Ashish Kalakuntla

    (Duke University)

  • Yichao Yu

    (Duke University)

  • Christopher Monroe

    (Duke University)

Abstract

Photonic interconnects between quantum processing nodes are likely the only way to achieve large-scale quantum computers and networks. The bottleneck in such an architecture is the interface between well-isolated quantum memories and flying photons. We establish high-fidelity entanglement between remotely separated trapped atomic qubit memories, mediated by photonic qubits stored in the timing of their pulses. Such time-bin encoding removes sensitivity to polarization errors, enables long-distance quantum communication, and is extensible to quantum memories with more than two states. Using a measurement-based error detection process and suppressing a fundamental source of error due to atomic recoil, we achieve an entanglement fidelity of 97% and show that fundamental limits due to atomic recoil still allow fidelities in excess of 99.9%.

Suggested Citation

  • Sagnik Saha & Mikhail Shalaev & Jameson O’Reilly & Isabella Goetting & George Toh & Ashish Kalakuntla & Yichao Yu & Christopher Monroe, 2025. "High-fidelity remote entanglement of trapped atoms mediated by time-bin photons," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57557-4
    DOI: 10.1038/s41467-025-57557-4
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