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    Journals >Infrared and Laser Engineering >Volume 52 >Issue 7 >Page 20230377 > Article
    • Infrared and Laser Engineering
    • Vol. 52, Issue 7, 20230377 (2023)
    640×512 HgTe colloidal quantum-dot mid-wave infrared focal plane array (invited)
    Yimei Tan1,2, Shuo Zhang2, Yuning Luo1,2, Qun Hao1..., Menglu Chen1, Yanfei Liu2 and Xin Tang1|Show fewer author(s)
    Author Affiliations
  • 1School of Optics and Photonics, Beijing Institute of Technology, Beijing 100081, China
  • 2Zhongxinrecheng Science and Technology Co., Ltd., Beijing 101102, China
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    DOI: 10.3788/IRLA20230377 Cite this Article
    Yimei Tan, Shuo Zhang, Yuning Luo, Qun Hao, Menglu Chen, Yanfei Liu, Xin Tang. 640×512 HgTe colloidal quantum-dot mid-wave infrared focal plane array (invited)[J]. Infrared and Laser Engineering, 2023, 52(7): 20230377 Copy Citation Text show less
    TEM image and absorption spectra of HgTe quantum dots (CQDs) at room temperature
    Fig. 1. TEM image and absorption spectra of HgTe quantum dots (CQDs) at room temperature
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    Response spectra of HgTe CQDs-based photodetectors at room temperature and 80 K
    Fig. 2. Response spectra of HgTe CQDs-based photodetectors at room temperature and 80 K
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    (a) Device structure diagram of trapping-mode photodetectors; (b) Energy band diagram of trapping-mode photodetectors
    Fig. 3. (a) Device structure diagram of trapping-mode photodetectors; (b) Energy band diagram of trapping-mode photodetectors
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    Diagram of device signal extraction and Dewar test package
    Fig. 4. Diagram of device signal extraction and Dewar test package
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    (a) Response distribution diagram and response statistics histogram, (b) noise distribution diagram and noise statistics histogram, (c) detectivity distribution diagram and detectivity statistics histogram of photodetectors
    Fig. 5. (a) Response distribution diagram and response statistics histogram, (b) noise distribution diagram and noise statistics histogram, (c) detectivity distribution diagram and detectivity statistics histogram of photodetectors
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    Over heat pixels and dead pixels mapping of CQDs FPA
    Fig. 6. Over heat pixels and dead pixels mapping of CQDs FPA
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    Relationship curve between integration time and NETD
    Fig. 7. Relationship curve between integration time and NETD
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    Thermal images of (a) 50 ℃ water and 200 ℃ soldering iron, (b) bottles with water at temperature of 50 ℃, 0 ℃ and 25 ℃ (from left to right); (c) human body and (d) human body with phones
    Fig. 8. Thermal images of (a) 50 ℃ water and 200 ℃ soldering iron, (b) bottles with water at temperature of 50 ℃, 0 ℃ and 25 ℃ (from left to right); (c) human body and (d) human body with phones
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    Ref.MaterialsWavelength/μmArray scaleDetectivity/JonesNETD/mK
    [9] PbS CQDs1.8256×2562.3×109-
    [10] PbS CQDs0.3-2.0388×2881012-
    [11] PbS CQDs0.94640×5122.1×1012-
    [17] HgTe CQDs1.8640×512--
    [12] HgTe CQDs4.5320×256-102- 199
    This workHgTe CQDs4.6640×5122×101051.26
    Table 1. Device performance comparison between this work and the previous CQDs-based focus plane arrays
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    Yimei Tan, Shuo Zhang, Yuning Luo, Qun Hao, Menglu Chen, Yanfei Liu, Xin Tang. 640×512 HgTe colloidal quantum-dot mid-wave infrared focal plane array (invited)[J]. Infrared and Laser Engineering, 2023, 52(7): 20230377
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