Van der Waals semiconductors as Josephson junction barriers for superconducting qubits
ORAL
Abstract
Two-dimensional van der Waals (vdW) materials are promising platforms for superconducting quantum devices due to their single-crystallinity, low defect density, and lack of dangling bonds. vdW semiconductors—whose band gaps are typically ~5x smaller than in vdW insulators like hBN—can exhibit tunneling through ~10 layers, enabling large-area, homogeneous Josephson junctions with greater participation ratios in ultra-clean vdW interfaces. We characterize the dc and microwave electronic properties of vdW Josephson junctions with ultra-high-purity WSe2 semiconductor barriers and discuss their potential as components for small-footprint, high-quality-factor superconducting qubits.
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Presenters
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Jesse Balgley
Columbia University
Authors
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Jesse Balgley
Columbia University
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Abhinandan Antony
Columbia University
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Xuanjing Chu
Columbia University
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Ethan G Arnault
MIT Research Laboratory of Electronics, Duke University, Massachusetts Institute of Technology
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Martin V Gustafsson
Raytheon BBN Technologies
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James C Hone
Columbia University
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Kin Chung Fong
Raytheon BBN Technologies, BBN Raytheon Technologies, BBN Technology - Massachusetts, Raytheon BBN