Towards a spin-ensemble quantum memory for superconducting qubits

  1. C. Grezes,
  2. Y. Kubo,
  3. B. Julsgaard,
  4. T. Umeda,
  5. J. Isoya,
  6. H. Sumiya,
  7. H. Abe,
  8. S. Onoda,
  9. T. Ohshima,
  10. K. Nakamura,
  11. I. Diniz,
  12. A. Auffeves,
  13. V. Jacques,
  14. J.-F. Roch,
  15. D. Vion,
  16. D. Esteve,
  17. K. Moelmer,
  18. and P. Bertet
This article reviews efforts to build a new type of quantum device, which combines an ensemble of electronic spins with long coherence times, and a small-scale superconducting quantum processor. The goal is to store over long times arbitrary qubit states in orthogonal collective modes of the spin-ensemble, and to retrieve them on-demand. We first present the protocol devised for such a multi-mode quantum memory. We then describe a series of experimental results using NV center spins in diamond, which demonstrate its main building blocks: the transfer of arbitrary quantum states from a qubit into the spin ensemble, and the multi-mode retrieval of classical microwave pulses down to the single-photon level with a Hahn-echo like sequence. A reset of the spin memory is implemented in-between two successive sequences using optical repumping of the spins.
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