Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications
This work reports a novel mid-infrared (MIR) lateral Ge1-xSnx (x = 6%) waveguide-based phototransistors (PTs) on a silicon platform. A lateral device structure is proposed to enhance the optical confinement factor (OCF) and the optical power through the i-GeSn waveguide, thereby, increasing the o...
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sg-ntu-dr.10356-1643572023-01-18T02:43:00Z Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications Kumar, Harshvardhan Chen, Qimiao Tan, Chuan Seng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering GeSn Photoresistor This work reports a novel mid-infrared (MIR) lateral Ge1-xSnx (x = 6%) waveguide-based phototransistors (PTs) on a silicon platform. A lateral device structure is proposed to enhance the optical confinement factor (OCF) and the optical power through the i-GeSn waveguide, thereby, increasing the optical responsivity of the PTs. The proposed devices are investigated using multiphysics simulation. The designed PTs are investigated in terms of the Gummel and output characteristics under both dark and illumination, 3dB bandwidth, optical gain, and responsivity. The effect of lateral scaling on various figure-of-merits of PTs is also studied and in return, helps optimize the device structure to get the highest optical gain, responsivity, and 3-dB bandwidth at 2000 nm. The theoretically optimized PT achieves the maximum optical gain of 1650 and responsivity of about 308A/W at 2000 nm, with = 0.3 and = 1 . In addition, the device exhibits a record-high 3-dB bandwidth of >55GHz. Thus, the encouraging electrical and optical performance of the proposed PT manifests it as a great potential candidate for the 2000 nm band. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This work was supported in part by the National Research Foundation Singapore (NRF–CRP19–2017–01); Ministry of Education AcRF Tier 2 (T2EP50121- 0001 (MOE-000180- 01)); Ministry of Education AcRF Tier 1 (2021-T1-002- 031 (RG112/21)) 2023-01-18T02:43:00Z 2023-01-18T02:43:00Z 2023 Journal Article Kumar, H., Chen, Q. & Tan, C. S. (2023). Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications. Semiconductor Science and Technology. https://dx.doi.org/10.1088/1361-6641/acb0f5 0268-1242 https://hdl.handle.net/10356/164357 10.1088/1361-6641/acb0f5 en NRF–CRP19–2017–01 T2EP50121- 0001 (MOE-000180- 01) 2021-T1-002- 031 (RG112/21) Semiconductor Science and Technology © 2023 IOP Publishing Ltd. All rights reserved. This is an author-created, un-copyedited version of an article accepted for publication in Semiconductor Science and Technology. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The definitive publisher authenticated version is available online at https://doi.org/10.1088/1361-6641/acb0f5. application/pdf |
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Engineering::Electrical and electronic engineering GeSn Photoresistor Kumar, Harshvardhan Chen, Qimiao Tan, Chuan Seng Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| description |
This work reports a novel mid-infrared (MIR) lateral Ge1-xSnx (x = 6%) waveguide-based
phototransistors (PTs) on a silicon platform. A lateral device structure is proposed to enhance
the optical confinement factor (OCF) and the optical power through the i-GeSn waveguide,
thereby, increasing the optical responsivity of the PTs. The proposed devices are investigated
using multiphysics simulation. The designed PTs are investigated in terms of the Gummel
and output characteristics under both dark and illumination, 3dB bandwidth, optical gain, and
responsivity. The effect of lateral scaling on various figure-of-merits of PTs is also studied
and in return, helps optimize the device structure to get the highest optical gain, responsivity,
and 3-dB bandwidth at 2000 nm. The theoretically optimized PT achieves the maximum
optical gain of 1650 and responsivity of about 308A/W at 2000 nm, with = 0.3 and
= 1 . In addition, the device exhibits a record-high 3-dB bandwidth of >55GHz. Thus,
the encouraging electrical and optical performance of the proposed PT manifests it as a great
potential candidate for the 2000 nm band. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Kumar, Harshvardhan Chen, Qimiao Tan, Chuan Seng |
| format |
Article |
| author |
Kumar, Harshvardhan Chen, Qimiao Tan, Chuan Seng |
| author_sort |
Kumar, Harshvardhan |
| title |
Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| title_short |
Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| title_full |
Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| title_fullStr |
Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| title_full_unstemmed |
Lateral GeSn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| title_sort |
lateral gesn waveguide-based homojunction phototransistor for next-generation 2000nm communication and sensing applications |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164357 |
| _version_ |
1756370584272371712 |