\begin{document}$ J $\end{document} combined with Zeeman energy difference \begin{document}$ \Delta {E}_{z} $\end{document} determines the energy levels of system, which lead to the different two-qubit gates, such as controlled-Z (CZ), controlled-Rotation (CROT), and the square root of the SWAP gate (\begin{document}$ \sqrt{\rm{S}\rm{W}\rm{A}\rm{P}} $\end{document}) gates. In order to improve the fidelity of two-qubit gates, a series of key technologies is used experimentally, they being isotope purification, symmetry operation, careful Hamiltonian engineering, and gate set tomography. Fidelity of two-qubit gates exceeding 99% has been demonstrated for electron spin qubits in Si/SiGe quantum dots and nuclear spin qubits in donors. These advances have pushed the silicon-based spin qubit platform to become a major stepping stone towards fault-tolerant quantum computation. Finally, we discuss the future study of spin qubits, that is, how to effectively expand the number of qubits, and many other problems to be explored and solved."> - 必威体育下载

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Citation:

Wang Ning, Wang Bao-Chuan, Guo Guo-Ping
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  • Abstract views:7067
  • PDF Downloads:425
  • Cited By:0
Publishing process
  • Received Date:30 September 2022
  • Accepted Date:30 October 2022
  • Available Online:02 November 2022
  • Published Online:05 December 2022

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