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Stolk, A.J. (author), van der Enden, K.L. (author), Roehsner, M.C. (author), Teepe, A. (author), Faes, S.O.J. (author), Bradley, C.E. (author), Cadot, S. (author), van Rantwijk, J. (author), te Raa, I. (author), Hagen, R.A.J. (author), Verlaan, A.L. (author), Biemond, F.F.B. (author), Khorev, A. (author), Vollmer, R. (author), Markham, M. (author), Edmonds, A.M. (author), Morits, J.P.J. (author), Taminiau, T.H. (author), van Zwet, E.J. (author), Hanson, R. (author)
We demonstrate interference of photons emitted by remote, spectrally distinct NV-centers. Quantum frequency conversion at the nodes brings the photons to the same wavelength in the telecom L-band, compatible with entanglement generation at metropolitan scale.
conference paper 2022
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Stolk, A.J. (author), van der Enden, K.L. (author), Roehsner, M.C. (author), Teepe, A. (author), Faes, S.O.F. (author), Bradley, C.E. (author), Cadot, S. (author), van Rantwijk, J. (author), te Raa, I. (author), Hagen, R.A.J. (author), Verlaan, A.L. (author), Biemond, J.J.B. (author), Khorev, A. (author), Vollmer, R. (author), Markham, M. (author), Edmonds, A.M. (author), Morits, J.P.J. (author), Taminiau, T.H.T. (author), van Zwet, E.J. (author), Hanson, R. (author)
Entanglement distribution over quantum networks has the promise of realizing fundamentally new technologies. Entanglement between separated quantum processing nodes has been achieved on several experimental platforms in the past decade. To move toward metropolitan-scale quantum network test beds, the creation and transmission of...
article 2022
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Kroll, J.G. (author), Borsoi, F. (author), van der Enden, K.L. (author), Uilhoorn, W. (author), de Jong, D. (author), Quintero-Perez, M. (author), van Woerkom, D.J. (author), Bruno, A. (author), Plissard, S.R. (author), Car, D. (author), Bakkers, E.P.A.M. (author), Cassidy, M.C. (author), Kouwenhoven, L.P. (author)
Superconducting coplanar-waveguide resonators that can operate in strong magnetic fields are important tools for a variety of high-frequency superconducting devices. Magnetic fields degrade resonator performance by creating Abrikosov vortices that cause resistive losses and frequency fluctuations or suppress the superconductivity entirely. To...
article 2019