Current Bias Modulated Low Noise Equivalent Power of YBa2Cu3O7‑δ Nanowire Infrared Detector in 8–12 μm

Current Bias Modulated Low Noise Equivalent Power of YBa2Cu3O7‑δ Nanowire Infrared Detector in 8–12 μm

Superconductor infrared detectors, composed of parallel nanowires, with low noise and wide dynamic range, are broadly applied in infrared detection including cosmic physics. YBCO (yttrium barium copper oxide) is the best known and attractive material for a bolometric-type detector due to its high cr...

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Veröffentlicht in:ACS applied electronic materials 2024-12, Vol.6 (12), p.8863-8869
Hauptverfasser: Shao, Mingxin, Du, Xinchuan, Liu, Yuqing, Cai, Xiaolun, Li, Zongpei, Ma, Huiqin, Luo, Zhengyang, Chen, Yueheng, Xu, Hongwei, Li, Nannan, Wang, Hanbin, Yang, Jun, Huang, Jianwen, Li, Peng
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container_end_page 8869
container_issue 12
container_start_page 8863
container_title ACS applied electronic materials
container_volume 6
creator Shao, Mingxin
Du, Xinchuan
Liu, Yuqing
Cai, Xiaolun
Li, Zongpei
Ma, Huiqin
Luo, Zhengyang
Chen, Yueheng
Xu, Hongwei
Li, Nannan
Wang, Hanbin
Yang, Jun
Huang, Jianwen
Li, Peng
description Superconductor infrared detectors, composed of parallel nanowires, with low noise and wide dynamic range, are broadly applied in infrared detection including cosmic physics. YBCO (yttrium barium copper oxide) is the best known and attractive material for a bolometric-type detector due to its high critical temperature and excellent sharp resistance–temperature transition. Inspired by excellent infrared detection of superconductor bolometers, we investigate the infrared blackbody radiation response performance of YBCO nanowire infrared detectors under different temperatures and biased currents. We discovered a high operating bias coefficient a of 0.65 in our YBCO nanowire infrared detectors, and a high thermal stability of YBCO nanowire infrared detectors is represented in the infrared wavelength (8–12 μm) according to the theoretical model of the bolometer. Our YBCO nanowire infrared detectors with optimal performance achieve a notably low noise equivalent power of 1.68 × 10–13 W/Hz0.5 under 8–12 μm infrared radiation at 80.5 K. Our work demonstrates the feasibility of current bias to modulate the outstanding infrared detection performance of high-temperature superconductor nanowire infrared detectors.
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