Author
Listed:
- S. Rosenblum
(Yale University
Yale University)
- Y. Y. Gao
(Yale University
Yale University)
- P. Reinhold
(Yale University
Yale University)
- C. Wang
(Yale University
Yale University
University of Massachusetts)
- C. J. Axline
(Yale University
Yale University)
- L. Frunzio
(Yale University
Yale University)
- S. M. Girvin
(Yale University
Yale University)
- Liang Jiang
(Yale University
Yale University)
- M. Mirrahimi
(Yale University
INRIA de Paris)
- M. H. Devoret
(Yale University
Yale University)
- R. J. Schoelkopf
(Yale University
Yale University)
Abstract
Entangling gates between qubits are a crucial component for performing algorithms in quantum computers. However, any quantum algorithm must ultimately operate on error-protected logical qubits encoded in high-dimensional systems. Typically, logical qubits are encoded in multiple two-level systems, but entangling gates operating on such qubits are highly complex and have not yet been demonstrated. Here we realize a controlled NOT (CNOT) gate between two multiphoton qubits in two microwave cavities. In this approach, we encode a qubit in the high-dimensional space of a single cavity mode, rather than in multiple two-level systems. We couple two such encoded qubits together through a transmon, which is driven by an RF pump to apply the gate within 190 ns. This is two orders of magnitude shorter than the decoherence time of the transmon, enabling a high-fidelity gate operation. These results are an important step towards universal algorithms on error-corrected logical qubits.
Suggested Citation
S. Rosenblum & Y. Y. Gao & P. Reinhold & C. Wang & C. J. Axline & L. Frunzio & S. M. Girvin & Liang Jiang & M. Mirrahimi & M. H. Devoret & R. J. Schoelkopf, 2018.
"A CNOT gate between multiphoton qubits encoded in two cavities,"
Nature Communications, Nature, vol. 9(1), pages 1-6, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03059-5
DOI: 10.1038/s41467-018-03059-5
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