Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density
Dark current characteristics of germanium (Ge) vertical p-i-n photodetectors were studied. Ge photodetectors were demonstrated on the germanium-on-insulator (GOI) platforms realized via direct wafer bonding and layer transfer. GOI platforms with two different threading dislocation densities (TDDs) o...
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sg-ntu-dr.10356-1420932020-07-07T01:30:36Z Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density Son, Bongkwon Lin, Yiding Lee, Kwang Hong Chen, Qimiao Tan, Chuan Seng School of Electrical and Electronic Engineering Low Energy Electronic Systems Singapore-MIT Alliance for Research and Technology Engineering::Electrical and electronic engineering Germanium Photodetectors Dark current characteristics of germanium (Ge) vertical p-i-n photodetectors were studied. Ge photodetectors were demonstrated on the germanium-on-insulator (GOI) platforms realized via direct wafer bonding and layer transfer. GOI platforms with two different threading dislocation densities (TDDs) of 3.2 × 106 cm−2 (low TDD) and 5.2 × 108 cm−2 (high TDD) were varied via furnace annealing in oxygen ambient. An ultra-low dark current density of 1.12 mA/cm2 for epi-Ge photodetectors was obtained for a low TDD Ge photodetector. This is reduced by a factor of 53 in comparison with a high TDD Ge photodetector. A dominant leakage contribution component shifts from bulk leakage to surface leakage as TDD decreases to 3.2 × 106 cm−2, suggesting that advanced surface passivation is required to further reduce the leakage current. Through an activation energy study, it is revealed that a primary bulk leakage mechanism shifts from Shockley–Read–Hall (SRH) leakage to diffusion leakage in a temperature range of 323–353 K. The surface leakage performed with plasma enhanced chemical vapor deposition-deposited SiO2 is governed by SRH and trap-assisted tunneling leakage processes. Two orders of magnitude enhancement in the effective carrier lifetime is observed with the reduction in TDD. This work suggests that bulk leakage current density and effective lifetime analysis provide a better understanding of TDD-dependent dark leakage current study. NRF (Natl Research Foundation, S’pore) Published version 2020-06-15T10:12:03Z 2020-06-15T10:12:03Z 2020 Journal Article Son, B., Lin, Y., Lee, K. H., Chen, Q., & Tan, C. S. (2020). Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density. Journal of Applied Physics, 127(20), 203105-. doi:10.1063/5.0005112 0021-8979 https://hdl.handle.net/10356/142093 10.1063/5.0005112 20 127 en NRF-CRP19-2017-01-00 Journal of Applied Physics © 2020 Author(s). All rights reserved. This paper was published by AIP Publishing in Journal of Applied Physics and is made available with permission of Author(s). application/pdf |
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Engineering::Electrical and electronic engineering Germanium Photodetectors Son, Bongkwon Lin, Yiding Lee, Kwang Hong Chen, Qimiao Tan, Chuan Seng Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| description |
Dark current characteristics of germanium (Ge) vertical p-i-n photodetectors were studied. Ge photodetectors were demonstrated on the germanium-on-insulator (GOI) platforms realized via direct wafer bonding and layer transfer. GOI platforms with two different threading dislocation densities (TDDs) of 3.2 × 106 cm−2 (low TDD) and 5.2 × 108 cm−2 (high TDD) were varied via furnace annealing in oxygen ambient. An ultra-low dark current density of 1.12 mA/cm2 for epi-Ge photodetectors was obtained for a low TDD Ge photodetector. This is reduced by a factor of 53 in comparison with a high TDD Ge photodetector. A dominant leakage contribution component shifts from bulk leakage to surface leakage as TDD decreases to 3.2 × 106 cm−2, suggesting that advanced surface passivation is required to further reduce the leakage current. Through an activation energy study, it is revealed that a primary bulk leakage mechanism shifts from Shockley–Read–Hall (SRH) leakage to diffusion leakage in a temperature range of 323–353 K. The surface leakage performed with plasma enhanced chemical vapor deposition-deposited SiO2 is governed by SRH and trap-assisted tunneling leakage processes. Two orders of magnitude enhancement in the effective carrier lifetime is observed with the reduction in TDD. This work suggests that bulk leakage current density and effective lifetime analysis provide a better understanding of TDD-dependent dark leakage current study. |
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School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Son, Bongkwon Lin, Yiding Lee, Kwang Hong Chen, Qimiao Tan, Chuan Seng |
| format |
Article |
| author |
Son, Bongkwon Lin, Yiding Lee, Kwang Hong Chen, Qimiao Tan, Chuan Seng |
| author_sort |
Son, Bongkwon |
| title |
Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| title_short |
Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| title_full |
Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| title_fullStr |
Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| title_full_unstemmed |
Dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| title_sort |
dark current analysis of germanium-on-insulator vertical p-i-n photodetectors with varying threading dislocation density |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142093 |
| _version_ |
1681058527068553216 |