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Abstract
Long-distance quantum information distribution is hindered by photon loss in optical fibers. While quantum repeaters are proposed as a solution, their complexity limits communication distance. This paper demonstrates coherent storage of light in an atomic frequency comb memory for over one hour using a zero-first-order-Zeeman magnetic field and dynamical decoupling, significantly exceeding previous records (~1 minute). This breakthrough paves the way for large-scale quantum communication using long-lived solid-state quantum memories.
Publisher
Nature Communications
Published On
Apr 22, 2021
Authors
Yu Ma, You-Zhi Ma, Zong-Quan Zhou, Chuan-Feng Li, Guang-Can Guo
Tags
quantum information
photon loss
quantum repeaters
atomic frequency comb
coherent storage
solid-state quantum memories
communication distance

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