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Dephasing of Exchange‐Coupled Spins in Quantum Dots for Quantum Computing

Dephasing of Exchange‐Coupled Spins in Quantum Dots for Quantum Computing A spin qubit in semiconductor quantum dots holds promise for quantum information processing for scalability and long coherence time. An important semiconductor qubit system is a double quantum dot trapping two electrons or holes, whose spin states encode either a singlet–triplet qubit or two single‐spin qubits coupled by exchange interaction. In this article, progress on the spin dephasing of two exchange‐coupled spins in a double quantum dot is reported. First, the schemes of two‐qubit gates and qubit encodings in gate‐defined quantum dots or donor atoms based on the exchange interaction are discussed. Then, the progress on spin dephasing of a singlet–triplet qubit or a two‐qubit gate is reported. The methods of suppressing spin dephasing are further discussed. The understanding of the spin dephasing may provide insights into the realization of high‐fidelity quantum gates for spin‐based quantum computing. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advanced Quantum Technologies Wiley

Dephasing of Exchange‐Coupled Spins in Quantum Dots for Quantum Computing

Huang, Peihao
Advanced Quantum Technologies , Volume 4 (11) – Nov 1, 2021
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12 pages

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Publisher
Wiley
Copyright
© 2021 Wiley‐VCH GmbH
eISSN
2511-9044
DOI
10.1002/qute.202100018
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Abstract

A spin qubit in semiconductor quantum dots holds promise for quantum information processing for scalability and long coherence time. An important semiconductor qubit system is a double quantum dot trapping two electrons or holes, whose spin states encode either a singlet–triplet qubit or two single‐spin qubits coupled by exchange interaction. In this article, progress on the spin dephasing of two exchange‐coupled spins in a double quantum dot is reported. First, the schemes of two‐qubit gates and qubit encodings in gate‐defined quantum dots or donor atoms based on the exchange interaction are discussed. Then, the progress on spin dephasing of a singlet–triplet qubit or a two‐qubit gate is reported. The methods of suppressing spin dephasing are further discussed. The understanding of the spin dephasing may provide insights into the realization of high‐fidelity quantum gates for spin‐based quantum computing.

Journal

Advanced Quantum TechnologiesWiley

Published: Nov 1, 2021

Keywords: dephasing; exchange interaction; quantum computing; quantum dots; spin qubits; two‐qubit gates

References

  • Quantum Computation and Quantum Information
    Nielsen, M. A.; Chuang, I. L.
  • Solid State Physics
    Ashcroft, N. W.; Mermin, N. D.