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Main Authors: Yun, M. -R., Shan, Zheng, Sun, Li-Li, Yan, L. -L., Su, Yu Jia S. -L., Chen, G.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.02234
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author Yun, M. -R.
Shan, Zheng
Sun, Li-Li
Yan, L. -L.
Su, Yu Jia S. -L.
Chen, G.
author_facet Yun, M. -R.
Shan, Zheng
Sun, Li-Li
Yan, L. -L.
Su, Yu Jia S. -L.
Chen, G.
contents Due to its significant application in reducing algorithm depth, fSim gates have attracted a lot of attention. However, during the implementation of quantum gates, fluctuations in control parameters and decoherence caused by the environment may lead to a decrease in the fidelity of the gate. Implementing the fSim gate that is robust to these factors in one step remains an unresolved issue. In this manuscript, we propose a one-step implementation of the nonadiabatic geometric fSim gate composed of a nonadiabatic holonomic controlled phase (CP) gate and a nonadiabatic noncyclic geometric iSWAP gate with parallel paths in a tunable superconducting circuit. Compared to the composite nonadiabatic geometric fSim gate composed of a nonadiabatic holonomic CP gate and a nonadiabatic geometric iSWAP gate, our scheme only takes half the time and demonstrates robustness to parameter fluctuations, as well as to environmental impacts. Moreover, the scheme does not require complex controls, making it very easy to implement in experiments, and can be achieved in various circuit structures. Our scheme may provide a promising path toward quantum computation and simulation.
format Preprint
id arxiv_https___arxiv_org_abs_2401_02234
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle One-step implementation of nonadiabatic geometric fSim gate in superconducting circuits
Yun, M. -R.
Shan, Zheng
Sun, Li-Li
Yan, L. -L.
Su, Yu Jia S. -L.
Chen, G.
Quantum Physics
Due to its significant application in reducing algorithm depth, fSim gates have attracted a lot of attention. However, during the implementation of quantum gates, fluctuations in control parameters and decoherence caused by the environment may lead to a decrease in the fidelity of the gate. Implementing the fSim gate that is robust to these factors in one step remains an unresolved issue. In this manuscript, we propose a one-step implementation of the nonadiabatic geometric fSim gate composed of a nonadiabatic holonomic controlled phase (CP) gate and a nonadiabatic noncyclic geometric iSWAP gate with parallel paths in a tunable superconducting circuit. Compared to the composite nonadiabatic geometric fSim gate composed of a nonadiabatic holonomic CP gate and a nonadiabatic geometric iSWAP gate, our scheme only takes half the time and demonstrates robustness to parameter fluctuations, as well as to environmental impacts. Moreover, the scheme does not require complex controls, making it very easy to implement in experiments, and can be achieved in various circuit structures. Our scheme may provide a promising path toward quantum computation and simulation.
title One-step implementation of nonadiabatic geometric fSim gate in superconducting circuits
topic Quantum Physics
url https://arxiv.org/abs/2401.02234