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Trapped-Ion Quantum Computing: Progress and Challenges

Quantum Physics 2019-12-03 v1 Atomic Physics
Authors: Colin D. Bruzewicz , John Chiaverini , Robert McConnell , Jeremy M. Sage
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Abstract

Trapped ions are among the most promising systems for practical quantum computing (QC). The basic requirements for universal QC have all been demonstrated with ions and quantum algorithms using few-ion-qubit systems have been implemented. We review the state of the field, covering the basics of how trapped ions are used for QC and their strengths and limitations as qubits. In addition, we discuss what is being done, and what may be required, to increase the scale of trapped ion quantum computers while mitigating decoherence and control errors. Finally, we explore the outlook for trapped-ion QC. In particular, we discuss near-term applications, considerations impacting the design of future systems of trapped ions, and experiments and demonstrations that may further inform these considerations.

Keywords

trapped ion quantum computing quantum computing quantum computation

Cite

@article{arxiv.1904.04178,
  title  = {Trapped-Ion Quantum Computing: Progress and Challenges},
  author = {Colin D. Bruzewicz and John Chiaverini and Robert McConnell and Jeremy M. Sage},
  journal= {arXiv preprint arXiv:1904.04178},
  year   = {2019}
}

Comments

The following article has been submitted to Applied Physics Reviews

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