2019
DOI: 10.1016/j.scib.2019.09.006
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Storage of telecom-C-band heralded single photons with orbital-angular-momentum encoding in a crystal

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Cited by 7 publications
(4 citation statements)
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“…[ 144 ] Non‐Kramers ions, such as Pr 3 + and Eu 3 + , have a narrow storage bandwidth (MHz to tens of MHz) due to the small hyperfine splitting. Narrow‐band photon sources based on the cavity‐enhanced SPDC [ 57,76,77 ] have been developed to interface with such quantum memories. Similar to the DLCZ protocol, such sources could be used in quantum repeaters, but highly multimode quantum memories would be required to reach practical count rates in the implementation of realistic quantum repeaters.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…[ 144 ] Non‐Kramers ions, such as Pr 3 + and Eu 3 + , have a narrow storage bandwidth (MHz to tens of MHz) due to the small hyperfine splitting. Narrow‐band photon sources based on the cavity‐enhanced SPDC [ 57,76,77 ] have been developed to interface with such quantum memories. Similar to the DLCZ protocol, such sources could be used in quantum repeaters, but highly multimode quantum memories would be required to reach practical count rates in the implementation of realistic quantum repeaters.…”
Section: Discussionmentioning
confidence: 99%
“…The bandwidth is important for efficiently interfacing with quantum light sources. While these typically have wideband emission, their bandwidth can also be manipulated and compressed with various spectral compression techniques [ 57,73–77 ] to match with the bandwidth of atomic memories.…”
Section: Optical Quantum Memoriesmentioning
confidence: 99%
“…The study of effects of the improved DD method on efficiency would be an interesting topic in the future work. Quantum memories are important in various quantum communication applications 53 , 54 , in particular the quantum secure direct communication 55 , 56 . This method will have important consequences for the goal of quantum networks based on quantum memories 4 6 , as well as for the quantum architectures to store and control quantum states using microwave quantum memories 57 , 58 .…”
Section: Discussionmentioning
confidence: 99%
“…The capacity of the AFC memory to operate in the quantum regime has been demonstrated in a number of experiments including: storage of qubits encoded in polarisation [6][7][8], time-bin [9] and orbital angular momentum [10]; storage of single photons from parametric down conversion sources [8,[11][12][13] and quantum dot sources [14]; storage of photonic entanglement [15] and hyper-entangled states [16]; generation of photonic en-tanglement [17,18]. Large multimode capacity has been also been demonstrated [19,20].…”
mentioning
confidence: 99%