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Room temperature operation of germanium–silicon single-photon avalanche diode

Author

Listed:
  • Neil Na

    (Artilux Inc.)

  • Yen-Cheng Lu

    (Artilux Inc.)

  • Yu-Hsuan Liu

    (Artilux Inc.)

  • Po-Wei Chen

    (Artilux Inc.)

  • Ying-Chen Lai

    (Artilux Inc.)

  • You-Ru Lin

    (Artilux Inc.)

  • Chung-Chih Lin

    (Artilux Inc.)

  • Tim Shia

    (Artilux Inc.)

  • Chih-Hao Cheng

    (Artilux Inc.)

  • Shu-Lu Chen

    (Artilux Inc.)

Abstract

The ability to detect single photons has led to the advancement of numerous research fields1–11. Although various types of single-photon detector have been developed12, because of two main factors—that is, (1) the need for operating at cryogenic temperature13,14 and (2) the incompatibility with complementary metal–oxide–semiconductor (CMOS) fabrication processes15,16—so far, to our knowledge, only Si-based single-photon avalanche diode (SPAD)17,18 has gained mainstream success and has been used in consumer electronics. With the growing demand to shift the operation wavelength from near-infrared to short-wavelength infrared (SWIR) for better safety and performance19–21, an alternative solution is required because Si has negligible optical absorption for wavelengths beyond 1 µm. Here we report a CMOS-compatible, high-performing germanium–silicon SPAD operated at room temperature, featuring a noise-equivalent power improvement over the previous Ge-based SPADs22–28 by 2–3.5 orders of magnitude. Key parameters such as dark count rate, single-photon detection probability at 1,310 nm, timing jitter, after-pulsing characteristic time and after-pulsing probability are, respectively, measured as 19 kHz µm−2, 12%, 188 ps, ~90 ns and

Suggested Citation

  • Neil Na & Yen-Cheng Lu & Yu-Hsuan Liu & Po-Wei Chen & Ying-Chen Lai & You-Ru Lin & Chung-Chih Lin & Tim Shia & Chih-Hao Cheng & Shu-Lu Chen, 2024. "Room temperature operation of germanium–silicon single-photon avalanche diode," Nature, Nature, vol. 627(8003), pages 295-300, March.
    • Handle: RePEc:nat:nature:v:627:y:2024:i:8003:d:10.1038_s41586-024-07076-x
    DOI: 10.1038/s41586-024-07076-x
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    Cited by:

    1. Cheng Yao & Ruwei Wei & Xiao Luo & Jie Zhou & Xiaodong Zhang & Xicun Lu & Yan Dong & Ruofan Chu & Yuxin Sun & Yu Wang & Wencheng Xia & Dahui Qu & Cong Liu & Jun Ren & Guangbo Ge & Jinquan Chen & Xuhon, 2025. "A stable and biocompatible shortwave infrared nanoribbon for dual-channel in vivo imaging," Nature Communications, Nature, vol. 16(1), pages 1-12, December.

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