Study on photoelectric performance of ultra-small pixel pitch micro-mesa InGaAs detector
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1.School of Information Science and Technology, ShanghaiTech University, Shanghai 200083, China;2.State Key Laboratories of Transducer Technology, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, Shanghai 200083, China

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Supported by Shanghai Natural Science Foundation (22ZR1472600)

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    Abstract:

    The pursuit of ultra-small pixel pitch InGaAs detectors necessitates a meticulous approach to addressing challenges associated with crosstalk reduction and dark current minimization. By developing the fabrication process technology of micro-mesa InGaAs detector, a test structure featuring a micro-mesa InGaAs photosensitive chip with 10μm and 5μm pixel pitch was successfully prepared. Subsequently, a comprehensive investigation was conducted to analyze the impact of the micro-mesa structure on crosstalk and dark current characteristics of the InGaAs detector. The obtained results revealed the efficacy of the micro-mesa structure in effectively suppressing crosstalk between adjacent pixels when the isolation trench etches into the absorption layer. However, a noteworthy challenge emerged as the fabrication processes induced material damage, leading to a considerable increase in recombination current and ohmic leakage current. This adverse effect, in turn, manifested as a dark current escalation by more than one order of magnitude. The significance of these findings lies in offering a novel perspective for the manufacturing of ultra-small pixel pitch InGaAs focal plane detectors.

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History
  • Received:February 01,2024
  • Revised:July 21,2024
  • Adopted:April 02,2024
  • Online: July 15,2024
  • Published:
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