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@ARTICLE{Kaushal:888653,
      author       = {Kaushal, V. and Lekitsch, B. and Stahl, A. and Hilder, J.
                      and Pijn, D. and Schmiegelow, C. and Bermudez, A. and
                      Müller, M. and Schmidt-Kaler, F. and Poschinger, U.},
      title        = {{S}huttling-based trapped-ion quantum information
                      processing},
      journal      = {AVS Quantum Science},
      volume       = {2},
      issn         = {2639-0213},
      address      = {[Melville, NY]},
      publisher    = {AIP Publishing},
      reportid     = {FZJ-2020-05096},
      pages        = {014101},
      year         = {2020},
      abstract     = {Moving trapped-ion qubits in a microstructured array of
                      radiofrequency traps offers a route toward realizing
                      scalable quantum processing nodes. Establishing such nodes,
                      providing sufficient functionality to represent a building
                      block for emerging quantum technologies, e.g., a quantum
                      computer or quantum repeater, remains a formidable
                      technological challenge. In this review, the authors present
                      a holistic view on such an architecture, including the
                      relevant components, their characterization, and their
                      impact on the overall system performance. The authors
                      present a hardware architecture based on a uniform linear
                      segmented multilayer trap, controlled by a custom-made fast
                      multichannel arbitrary waveform generator. The latter allows
                      for conducting a set of different ion shuttling operations
                      at sufficient speed and quality. The authors describe the
                      relevant parameters and performance specifications for
                      microstructured ion traps, waveform generators, and
                      additional circuitry, along with suitable measurement
                      schemes to verify the system performance. Furthermore, a set
                      of different basic shuttling operations for a dynamic qubit
                      register reconfiguration is described and characterized in
                      detail},
      cin          = {PGI-2},
      ddc          = {530},
      cid          = {I:(DE-Juel1)PGI-2-20110106},
      pnm          = {144 - Controlling Collective States (POF3-144)},
      pid          = {G:(DE-HGF)POF3-144},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:001135487900003},
      doi          = {10.1116/1.5126186},
      url          = {https://juser.fz-juelich.de/record/888653},
}