Publication | Open Access
Quantum process tomography of two-qubit controlled-Z and controlled-NOT gates using superconducting phase qubits
105
Citations
28
References
2010
Year
Quantum Process TomographyEngineeringQuantum SensingJosephson JunctionsQuantum ComputingSuperconductivityQuantum MaterialsQuantum ControlQubit DesignQuantum EntanglementQuantum MatterSuperconducting DevicesQuantum ElectronicsQuantum SciencePhase QubitsPhysicsQuantum DevicePhase QubitQuantum InformationQuantum SwitchesQuantum TransducersQuantum TechnologyNatural SciencesApplied PhysicsQuantum DevicesControlled-not GatesQuantum Hardware
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 $|2⟩$ 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.
| Year | Citations | |
|---|---|---|
Page 1
Page 1