Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications
High-sensitivity Ge/Si avalanche photodiodes (APDs) have recently gained attention for their application in sensing and optical communication due to their low cost and CMOS compatible process. However, compared to commercial III–V compound APDs, Ge/Si APDs usually suffer from the issue of relatively...
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sg-ntu-dr.10356-1666012023-05-12T15:41:04Z Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications Wu, Shaoteng Zhou, Hao He, Li Wang, Zhaozhen Chen, Qimiao Zhang, Lin Tan, Chuan Seng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Germanium Avalanche Photodiode Silicon Photonics Photon Trapping High-sensitivity Ge/Si avalanche photodiodes (APDs) have recently gained attention for their application in sensing and optical communication due to their low cost and CMOS compatible process. However, compared to commercial III–V compound APDs, Ge/Si APDs usually suffer from the issue of relatively low primary responsivity. In this paper, we report Ge-on-Si separate absorption, charge, and multiplication avalanche photodiodes (SACM-APDs) with photon-trapping nanostructures to enhance light absorption. Besides, by optimizing the depth of the holes, the photon trapping structure could reduce the dark current without compromising the avalanche effect as confirmed by both simulations and experimental results. As a result, the responsivity of the photon trapping APDs increases by 20-50 % from that of control APDs at the 1,550 nm wavelength band. Furthermore, a quantum efficiency higher than 80% could be achieved at 1550 nm when the photon trapping Ge-on-Si APD is on Si-on-insulator (SOI) platforms as predicted by simulations. Our results demonstrate that the photon trapping Ge/Si APDs exhibit superior dark current, light absorption and gain than those of the control devices, which have the potential applications in sensing and optical quantum communications. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This work was supported by the National Research Foundation, Singapore, under its Competitive Research Program (CRP Award NRF-CRP19-2017-01), Ministry of Education AcRF Tier 2 (T2EP50121-0001 (MOE-000180-01)) and Ministry of Education AcRF Tier 1 (2021-T1-002-031 (RG112/21 )). 2023-05-09T07:22:14Z 2023-05-09T07:22:14Z 2023 Journal Article Wu, S., Zhou, H., He, L., Wang, Z., Chen, Q., Zhang, L. & Tan, C. S. (2023). Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications. IEEE Sensors Journal. https://dx.doi.org/10.1109/JSEN.2023.3271215 1530-437X https://hdl.handle.net/10356/166601 10.1109/JSEN.2023.3271215 en NRF-CRP19-2017-01 T2EP50121-0001 (MOE-000180-01) 2021-T1-002-031 (RG112/21) IEEE Sensors Journal © 2023 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: https://doi.org/10.1109/JSEN.2023.3271215. application/pdf |
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Engineering::Electrical and electronic engineering Germanium Avalanche Photodiode Silicon Photonics Photon Trapping Wu, Shaoteng Zhou, Hao He, Li Wang, Zhaozhen Chen, Qimiao Zhang, Lin Tan, Chuan Seng Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| description |
High-sensitivity Ge/Si avalanche photodiodes (APDs) have recently gained attention for their application in sensing and optical communication due to their low cost and CMOS compatible process. However, compared to commercial III–V compound APDs, Ge/Si APDs usually suffer from the issue of relatively low primary responsivity. In this paper, we report Ge-on-Si separate absorption, charge, and multiplication avalanche photodiodes (SACM-APDs) with photon-trapping nanostructures to enhance light absorption. Besides, by optimizing the depth of the holes, the photon trapping structure could reduce the dark current without compromising the avalanche effect as confirmed by both simulations and experimental results. As a result, the responsivity of the photon trapping APDs increases by 20-50 % from that of control APDs at the 1,550 nm wavelength band. Furthermore, a quantum efficiency higher than 80% could be achieved at 1550 nm when the photon trapping Ge-on-Si APD is on Si-on-insulator (SOI) platforms as predicted by simulations. Our results demonstrate that the photon trapping Ge/Si APDs exhibit superior dark current, light absorption and gain than those of the control devices, which have the potential applications in sensing and optical quantum communications. |
| author2 |
School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Wu, Shaoteng Zhou, Hao He, Li Wang, Zhaozhen Chen, Qimiao Zhang, Lin Tan, Chuan Seng |
| format |
Article |
| author |
Wu, Shaoteng Zhou, Hao He, Li Wang, Zhaozhen Chen, Qimiao Zhang, Lin Tan, Chuan Seng |
| author_sort |
Wu, Shaoteng |
| title |
Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| title_short |
Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| title_full |
Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| title_fullStr |
Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| title_full_unstemmed |
Ge-on-Si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| title_sort |
ge-on-si avalanche photodiodes with photon trapping nanostructures for sensing and optical quantum applications |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/166601 |
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