Quantum process tomography of two-qubit controlled-Z and controlled-NOT gates using superconducting phase qubits

A. D. O'Connell; A. N. Cleland; D. Sank; E. Lucero; H. Wang; J. Kelly; John M. Martinis; J. Wenner; Matteo Mariantoni; M. Lenander

arxiv: 1006.5084 · v1 · pith:MG4RNISQnew · submitted 2010-06-25 · ❄️ cond-mat.mes-hall

Quantum process tomography of two-qubit controlled-Z and controlled-NOT gates using superconducting phase qubits

T. Yamamoto , M. Neeley , E. Lucero , R. C. Bialczak , J. Kelly , M. Lenander , Matteo Mariantoni , A. D. O'Connell

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D. Sank H. Wang M. Weides J. Wenner Y. Yin A. N. Cleland John M. Martinis

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keywords controlled-notcontrolled-zgatesphaseprocessdemonstratefidelitygate

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We experimentally demonstrate quantum process tomography of controlled-Z and controlled-NOT gates using capacitively-coupled superconducting phase qubits. These gates are realized by using the $|2\rangle$ state of the phase qubit. We obtain a process fidelity of 0.70 for the controlled-phase and 0.56 for the controlled-NOT gate, with the loss of fidelity mostly due to single-qubit decoherence. The controlled-Z gate is also used to demonstrate a two-qubit Deutsch-Jozsa algorithm with a single function query.

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Quantum process tomography of two-qubit controlled-Z and controlled-NOT gates using superconducting phase qubits

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