In situ mixer calibration for superconducting quantum circuits

Authors :: Wu, Nan
Lin, Jing
Xie, Changrong
Guo, Zechen
Huang, Wenhui
Zhang, Libo
Zhou, Yuxuan
Sun, Xuandong
Zhang, Jiawei
Guo, Weijie
Linpeng, Xiayu
Liu, Song
Liu, Yang
Ren, Wenhui
Tao, Ziyu
Jiang, Ji
Chu, Ji
Niu, Jingjing
Zhong, Youpeng
Yu, Dapeng
Publication Year :: 2024
Abstract: Mixers play a crucial role in superconducting quantum computing, primarily by facilitating frequency conversion of signals to enable precise control and readout of quantum states. However, imperfections, particularly carrier leakage and unwanted sideband signal, can significantly compromise control fidelity. To mitigate these defects, regular and precise mixer calibrations are indispensable, yet they pose a formidable challenge in large-scale quantum control. Here, we introduce an in situ calibration technique and outcome-focused mixer calibration scheme using superconducting qubits. Our method leverages the qubit's response to imperfect signals, allowing for calibration without modifying the wiring configuration. We experimentally validate the efficacy of this technique by benchmarking single-qubit gate fidelity and qubit coherence time.<br />Comment: 9 pages, 7 figures

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