Single-photon telecom pulses stored for over 1 microsecond in erbium-doped nanophotonic lithium niobate via atomic frequency comb, preserving phase coherence with sub-single-photon noise and supporting up to 20 modes and 2.2 GHz bandwidth.
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Telecom quantum memory over one microsecond in nanophotonic lithium niobate
Single-photon telecom pulses stored for over 1 microsecond in erbium-doped nanophotonic lithium niobate via atomic frequency comb, preserving phase coherence with sub-single-photon noise and supporting up to 20 modes and 2.2 GHz bandwidth.