Gatemon Qubit Based on a Thin InAs-Al Hybrid Nanowire

Jierong Huo,Yulong Liu,Zonglin Li,Yuqing Wang,Yichun Gao,Qichun Liu,Zhichuan Wang,Dong Pan,Hao Zhang,Jianghua Ying,Runan Shang,Shan Zhang,Tiefu Li,Zezhou Xia,Jianhua Zhao

doi:10.1088/0256-307x/40/4/047302

Gatemon Qubit Based on a Thin InAs-Al Hybrid Nanowire

Jierong Huo, Yulong Liu + Show 13 more

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https://doi.org/10.1088/0256-307x/40/4/047302

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Journal: Chin Phys Lett	Publication Date: Mar 1, 2023
Citations: 7	License type: iop-standard

Affiliation: Tsinghua University, Beijing Academy of Quantum Information Sciences, Czech Academy of Sciences, Institute of Physics, Chinese Academy of Sciences, Institute of Semiconductors

#Circuit Quantum Electrodynamics #Josephson Energy + Show 8 more

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Abstract

We study a gate-tunable superconducting qubit (gatemon) based on a thin InAs-Al hybrid nanowire. Using a gate voltage to control its Josephson energy, the gatemon can reach the strong coupling regime to a microwave cavity. In the dispersive regime, we extract the energy relaxation time T 1 ∼ 0.56 μs and the dephasing time μs. Since thin InAs-Al nanowires can have fewer or single sub-band occupation and recent transport experiment shows the existence of nearly quantized zero-bias conductance peaks, our result holds relevancy for detecting Majorana zero modes in thin InAs-Al nanowires using circuit quantum electrodynamics.

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