FPGA-based electronic system for the control and readout of superconducting qubit systems

  1. Y. Yang,
  2. Z. Shen,
  3. X. Zhu,
  4. Z. Wang,
  5. G. Zhang,
  6. J. Zhou,
  7. C. Deng,
  8. S. Liu,
  9. and Q. An
This paper reports the development of an electronic system for the control and readout of superconducting qubits. The system includes a timing control module (TCM), four-channel arbitrary

Analysis of the spectroscopy of a hybrid system composed of a superconducting flux qubit and diamond NV centers

  1. H. Cai,
  2. Y. Matsuzaki,
  3. K. Kakuyanagi,
  4. H. Toida,
  5. X. Zhu,
  6. N. Mizuochi,
  7. K. Nemoto,
  8. K. Semba,
  9. W. J. Munro,
  10. S. Saito,
  11. and H. Yamaguchi
A hybrid system that combines the advantages of a superconducting flux qubit and an electron spin ensemble in diamond is one of the promising devices to realize quantum information