Complete universal quantum gate set approaching fault-tolerant thresholds with superconducting qubits

A. D. Corcoles; Chad Rigetti; George A. Keefe; Jay M. Gambetta; Jerry M. Chow; John A. Smolin; J. R. Rozen; Mark B. Ketchen; Mary B. Rothwell; M. Steffen

arxiv: 1202.5344 · v1 · pith:KYLGNNACnew · submitted 2012-02-23 · 🪐 quant-ph · cond-mat.mes-hall

Complete universal quantum gate set approaching fault-tolerant thresholds with superconducting qubits

Jerry M. Chow , Jay M. Gambetta , A. D. Corcoles , Seth T. Merkel , John A. Smolin , Chad Rigetti , S. Poletto , George A. Keefe

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Mary B. Rothwell J. R. Rozen Mark B. Ketchen M. Steffen

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classification 🪐 quant-ph cond-mat.mes-hall

keywords gatequbitssuperconductingprocessquantumuniversalaccountingall-microwave

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We use quantum process tomography to characterize a full universal set of all-microwave gates on two superconducting single-frequency single-junction transmon qubits. All extracted gate fidelities, including those for Clifford group generators, single-qubit pi/4 and pi/8 rotations, and a two-qubit controlled-NOT, exceed 95% (98%), without (with) accounting for state preparation and measurement errors. Furthermore, we introduce a process map representation in the Pauli basis which is visually efficient and informative. This high-fidelity gate set serves as another critical building block towards scalable architectures of superconducting qubits for error correction schemes.

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Complete universal quantum gate set approaching fault-tolerant thresholds with superconducting qubits

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