High-performance superconducting two-qubit gate using a three-mode tunable coupler

• Main Authors: Egorova, Elena Yu, Kazmina, Alena S, Simakov, Ilya A, Moskalenko, Ilya N, Abramov, Nikolay N, Kalacheva, Daria A, Lubsanov, Viktor B, Bolgar, Alexey N, Maleeva, Nataliya, Besedin, Ilya S
• Format: Journal Article
• Language: English
• Published: 17.05.2024
• Subjects: Physics - Quantum Physics
• DOI: 10.48550/arxiv.2405.10886

Building a scalable universal high-performance quantum processor is a formidable challenge. In particular, the problem of realizing fast high-perfomance two-qubit gates of high-fidelity remains needful. Here we propose a unitary cell for a scalable quantum processor consisting of two transmons and a tunable three-mode coupler allowing for a ZZ interaction control. We experimentally demonstrate the native CZ gate with the pulse duration of 60~ns achieving the two-qubit gate fidelity above 98%, limited mostly by qubit coherence time. Numerical simulations show that by optimizing the gate duration the fidelity can be pushed over 99.97%.