A simple all-microwave entangling gate for fixed-frequency superconducting qubits

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

arxiv: 1106.0553 · v1 · pith:26QKQVCSnew · submitted 2011-06-03 · 🪐 quant-ph · cond-mat.mes-hall

A simple all-microwave entangling gate for fixed-frequency superconducting qubits

Jerry M. Chow , A. D. Corcoles , Jay M. Gambetta , Chad Rigetti , B. R. Johnson , John A. Smolin , J. R. Rozen , George A. Keefe

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Mary B. Rothwell Mark B. Ketchen M. Steffen

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

keywords gateall-microwavefrequencyqubitssuperconductingadditionalamplitudebias

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We demonstrate an all-microwave two-qubit gate on superconducting qubits which are fixed in frequency at optimal bias points. The gate requires no additional subcircuitry and is tunable via the amplitude of microwave irradiation on one qubit at the transition frequency of the other. We use the gate to generate entangled states with a maximal extracted concurrence of 0.88 and quantum process tomography reveals a gate fidelity of 81%.

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