Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform
Germanium (Ge) lateral p-i-n photodetectors with grating and hole-array structures were fabricated on a Ge-on-insulator (GOI) platform. Owing to the low threading dislocation density (TDD) in the transferred Ge layer, a low dark current of 0.279 μA was achieved at -1 V. The grating structure enha...
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sg-ntu-dr.10356-1550452022-02-03T07:00:50Z Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform Zhou, Hao Chen, Qimiao Wu, Shaoteng Zhang, Lin Guo, Xin Son, Bongkwon Tan, Chuan Seng School of Electrical and Electronic Engineering Institute of Microelectronics, A*STAR Engineering::Electrical and electronic engineering::Semiconductors Germanium Photodetector Germanium (Ge) lateral p-i-n photodetectors with grating and hole-array structures were fabricated on a Ge-on-insulator (GOI) platform. Owing to the low threading dislocation density (TDD) in the transferred Ge layer, a low dark current of 0.279 μA was achieved at -1 V. The grating structure enhances the optical absorption by guiding the lateral propagation of normal incident light, contributing to a 3× improved responsivity at 1,550 nm. Compared with the grating structure, the hole-array structure not only guides the lateral modes but also benefits the vertical resonance modes. A 4.5× higher responsivity of 0.188 A/W at 1,550 nm was achieved on the 260 nm Ge absorptive layer. In addition, both the grating and the hole-array structure attribute to a 2× and a 1.6× enhanced 3dB bandwidth at -5 V due to significantly reduced capacitance. The planar configuration of - - photodiodes is favorable for large-scale monolithic integration. The incorporated surface structures offer promising approaches to reinforce the responsivity and bandwidth simultaneously, paving the way for the development of high-performance Ge photodetectors on silicon substrate. Ministry of Education (MOE) National Research Foundation (NRF) Published version National Research Foundation Singapore (NRF–CRP19–2017–01), Ministry of Education AcRF Tier 2 (T2EP50121-0001), Ministry of Education AcRF Tier 1 (2021-T1-002- 031 (RG112/21)). 2022-02-03T07:00:50Z 2022-02-03T07:00:50Z 2022 Journal Article Zhou, H., Chen, Q., Wu, S., Zhang, L., Guo, X., Son, B. & Tan, C. S. (2022). Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform. Optics Express, 30(4), 4706-4717. https://dx.doi.org/10.1364/OE.449326 1094-4087 https://hdl.handle.net/10356/155045 10.1364/OE.449326 4 30 4706 4717 en NRF–CRP19–2017–01 T2EP50121-0001 2021-T1-002- 031 (RG112/21) Optics Express © 2022 Optica Publishing Group under the terms of the Open Access Publishing Agreement. Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for noncommercial purposes and appropriate attribution is maintained. All other rights are reserved. application/pdf |
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Engineering::Electrical and electronic engineering::Semiconductors Germanium Photodetector Zhou, Hao Chen, Qimiao Wu, Shaoteng Zhang, Lin Guo, Xin Son, Bongkwon Tan, Chuan Seng Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| description |
Germanium (Ge) lateral p-i-n photodetectors with grating and hole-array structures
were fabricated on a Ge-on-insulator (GOI) platform. Owing to the low threading dislocation
density (TDD) in the transferred Ge layer, a low dark current of 0.279 μA was achieved at -1
V. The grating structure enhances the optical absorption by guiding the lateral propagation of
normal incident light, contributing to a 3× improved responsivity at 1,550 nm. Compared with
the grating structure, the hole-array structure not only guides the lateral modes but also benefits
the vertical resonance modes. A 4.5× higher responsivity of 0.188 A/W at 1,550 nm was
achieved on the 260 nm Ge absorptive layer. In addition, both the grating and the hole-array
structure attribute to a 2× and a 1.6× enhanced 3dB bandwidth at -5 V due to significantly
reduced capacitance. The planar configuration of - - photodiodes is favorable for large-scale
monolithic integration. The incorporated surface structures offer promising approaches to
reinforce the responsivity and bandwidth simultaneously, paving the way for the development
of high-performance Ge photodetectors on silicon substrate. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhou, Hao Chen, Qimiao Wu, Shaoteng Zhang, Lin Guo, Xin Son, Bongkwon Tan, Chuan Seng |
| format |
Article |
| author |
Zhou, Hao Chen, Qimiao Wu, Shaoteng Zhang, Lin Guo, Xin Son, Bongkwon Tan, Chuan Seng |
| author_sort |
Zhou, Hao |
| title |
Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| title_short |
Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| title_full |
Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| title_fullStr |
Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| title_full_unstemmed |
Grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| title_sort |
grating and hole-array enhanced germanium lateral p-i-n photodetectors on an insulator platform |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155045 |
| _version_ |
1724626845957095424 |