Author
Listed:
- Yuhao Hong
(University of Science and Technology of China
University of Twente)
- Lei Wang
(University of Science and Technology of China)
- Ziyue Shen
(University of Science and Technology of China)
- Tongrui Li
(University of Science and Technology of China)
- Long Wei
(University of Science and Technology of China)
- Shilin Hu
(University of Science and Technology of China)
- Junhua Liu
(University of Science and Technology of China)
- Wen Xiao
(University of Science and Technology of China)
- Lin Li
(University of Science and Technology of China)
- Mark Huijben
(University of Twente)
- Kai Chen
(University of Science and Technology of China)
- Yulin Gan
(University of Science and Technology of China)
- Guus Rijnders
(University of Twente)
- Gertjan Koster
(University of Twente)
- Zhaoliang Liao
(University of Science and Technology of China)
Abstract
Signal transmission across cryogenic and room-temperature environments remains a significant bottleneck in superconducting quantum computing and classical circuit integration. Furthermore, interactions among cryogenic devices often require room-temperature interfacing, driving substantial demand for data read/write interfaces, which in turn increases interconnect complexity and constrains scalability. In situ fabrication of cryogenic, high-performance logic circuits and devices presents a promising solution to address this “wiring bottleneck”. Here, we demonstrated interfacial two-dimensional electron gas devices with reversible interface states that can be directly modulated at operating temperatures while achieving an unprecedented ultrahigh on/off ratio. Remarkably, these devices can be patterned using a “light pencil” and erased with a pulsed electric field, enabling resist free, in situ direct writing and electrical erasure of the interface state.
Suggested Citation
Yuhao Hong & Lei Wang & Ziyue Shen & Tongrui Li & Long Wei & Shilin Hu & Junhua Liu & Wen Xiao & Lin Li & Mark Huijben & Kai Chen & Yulin Gan & Guus Rijnders & Gertjan Koster & Zhaoliang Liao, 2025.
"Cryogenic in situ fabrication of reversible direct write logic circuits and devices,"
Nature Communications, Nature, vol. 16(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63647-0
DOI: 10.1038/s41467-025-63647-0
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