We numerically study the implementation of a universal two-qubit gate set, composed of CNOT, Hadamard, phase and π/8 gates, for transmon-based systems. The control signals to implement such gates are obtained using the Chopped Random Basis optimal control technique, with a target gate infidelity of 10−2. During the optimization processes we account for the leakage toward non-computational states, an important non-ideality affecting transmon qubits. We also test and benchmark the optimal control solutions against the introduction of Gaussian white noise and spectral distortion, two key non-idealities that affect the control signals in transmon systems.

Robustness of a universal gate set implementation in transmon systems via Chopped Random Basis optimal control / Corti H.A.; Banchi L.; Cidronali A.. - In: PHYSICS LETTERS A. - ISSN 0375-9601. - STAMPA. - 438:(2022), pp. 1-7. [10.1016/j.physleta.2022.128119]

Robustness of a universal gate set implementation in transmon systems via Chopped Random Basis optimal control

Corti H. A.
Formal Analysis
;Banchi L.
Membro del Collaboration Group
;Cidronali A.
Membro del Collaboration Group
2022

Abstract

We numerically study the implementation of a universal two-qubit gate set, composed of CNOT, Hadamard, phase and π/8 gates, for transmon-based systems. The control signals to implement such gates are obtained using the Chopped Random Basis optimal control technique, with a target gate infidelity of 10−2. During the optimization processes we account for the leakage toward non-computational states, an important non-ideality affecting transmon qubits. We also test and benchmark the optimal control solutions against the introduction of Gaussian white noise and spectral distortion, two key non-idealities that affect the control signals in transmon systems.
2022
438
1
7
Corti H.A.; Banchi L.; Cidronali A.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1265539
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