Fast parametric two-qubit gates with suppressed residual interaction using the second-order nonlinearity of a cubic transmon

Authors :: Atsushi, Noguchi
Alto, Osada
Shumpei, Masuda
Shingo, Kono
Kentaro, Heya
Samuel Piotr, Wolski
Hiroki, Takahashi
Takanori, Sugiyama
Dany, Lachance-Quirion
Yasunobu, Nakamura
Atsushi, Noguchi
Alto, Osada
Shumpei, Masuda
Shingo, Kono
Kentaro, Heya
Samuel Piotr, Wolski
Hiroki, Takahashi
Takanori, Sugiyama
Dany, Lachance-Quirion
Yasunobu, Nakamura
Publication Year :: 2021
Abstract: We demonstrate fast two-qubit gates using a parity-violated superconducting qubit consisting of a capacitively shunted asymmetric Josephson-junction loop under a finite magnetic flux bias. The second-order nonlinearity manifesting in the qubit enables the interaction with a neighboring single-junction transmon qubit via first-order interqubit sideband transitions with Rabi frequencies up to 30 MHz. Simultaneously, the unwanted static longitudinal (ZZ) interaction is eliminated with ac Stark shifts induced by a continuous microwave drive near resonant to the sideband transitions. The average fidelities of the two-qubit gates are evaluated with randomized benchmarking as 0.971, 0.958, and 0.962 for CZ, iswap, and swap gates, respectively.<br />source:https://journals.aps.org/pra/abstract/10.1103/PhysRevA.102.062408

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