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Hauptverfasser: Jiang, Ling, Xu, Peng, Wu, Shengjun, Sun, Jian-An, Dou, Fu-Quan
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2410.07817
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author Jiang, Ling
Xu, Peng
Wu, Shengjun
Sun, Jian-An
Dou, Fu-Quan
author_facet Jiang, Ling
Xu, Peng
Wu, Shengjun
Sun, Jian-An
Dou, Fu-Quan
contents All-microwave control of fixed-frequency superconducting quantum systems offers the potential to reduce control circuit complexity and increase system coherence. Nevertheless, due to the limited control flexibility in qubit parameters, one has to address several issues, such as quantum crosstalk and frequency crowding, for scaling up qubit architecture with non-tunable elements. This study proposes a microwave-activated two-qubit gate scheme for two fixed-frequency transmon qubits coupled via a fixed-frequency transmon coupler. The protocol relies on applying a microwave pulse exclusively to the coupler, enabling the implementation of a controlled-Z (CZ) gate. We show that the gate fidelity exceeding 0.999 can be achieved within 150 ns, excluding decoherence effects. Moreover, we also show that leakage from the computational subspace to non-computational states can also be effectively suppressed.
format Preprint
id arxiv_https___arxiv_org_abs_2410_07817
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Microwave-activated two-qubit gates for fixed-coupling and fixed-frequency transmon qubits
Jiang, Ling
Xu, Peng
Wu, Shengjun
Sun, Jian-An
Dou, Fu-Quan
Quantum Physics
All-microwave control of fixed-frequency superconducting quantum systems offers the potential to reduce control circuit complexity and increase system coherence. Nevertheless, due to the limited control flexibility in qubit parameters, one has to address several issues, such as quantum crosstalk and frequency crowding, for scaling up qubit architecture with non-tunable elements. This study proposes a microwave-activated two-qubit gate scheme for two fixed-frequency transmon qubits coupled via a fixed-frequency transmon coupler. The protocol relies on applying a microwave pulse exclusively to the coupler, enabling the implementation of a controlled-Z (CZ) gate. We show that the gate fidelity exceeding 0.999 can be achieved within 150 ns, excluding decoherence effects. Moreover, we also show that leakage from the computational subspace to non-computational states can also be effectively suppressed.
title Microwave-activated two-qubit gates for fixed-coupling and fixed-frequency transmon qubits
topic Quantum Physics
url https://arxiv.org/abs/2410.07817