High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering
The technology to develop a large number of identical coherent light sources on an integrated photonics platform holds the key to the realization of scalable optical and quantum photonic circuits. Herein, a scalable technique is presented to produce identical on-chip lasers by dynamically controlled...
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sg-ntu-dr.10356-1692692023-07-14T15:39:37Z High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering Kim, Youngmin Joo, Hyo-Jun Chen, Melvina Son, Bongkwon Burt, Daniel Shi, Xuncheng Zhang, Lin Ikonic, Zoran Tan, Chuan Seng Nam, Donguk School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Identical Lasers Silicon Photonics The technology to develop a large number of identical coherent light sources on an integrated photonics platform holds the key to the realization of scalable optical and quantum photonic circuits. Herein, a scalable technique is presented to produce identical on-chip lasers by dynamically controlled strain engineering. By using localized laser annealing that can control the strain in the laser gain medium, the emission wavelengths of several GeSn one-dimensional photonic crystal nanobeam lasers are precisely matched whose initial emission wavelengths are significantly varied. The method changes the GeSn crystal structure in a region far away from the gain medium by inducing Sn segregation in a dynamically controllable manner, enabling the emission wavelength tuning of more than 10 nm without degrading the laser emission properties such as intensity and linewidth. The authors believe that the work presents a new possibility to scale up the number of identical light sources for the realization of large-scale photonic-integrated circuits. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Research Foundation (NRF) Published version The research of the project was in part supported by the Ministry of Education, Singapore, under grant AcRF TIER 1 (No. RG 115/21). The research of the project was also supported by the Ministry of Education, Singapore, under grant AcRF TIER 2 (No. MOE2018-T2-2-011 (S)). This work was also supported by the National Research Foundation of Singapore through the Competitive Research Program (grant No. NRF-CRP19-2017-01), the National Research Foundation of Singapore through the NRF-ANR Joint Grant (No. NRF2018-NRF-ANR009 TIGER), and the iGrant of Singapore A*STAR AMEIRG (No. A2083c0053). 2023-07-10T08:21:51Z 2023-07-10T08:21:51Z 2023 Journal Article Kim, Y., Joo, H., Chen, M., Son, B., Burt, D., Shi, X., Zhang, L., Ikonic, Z., Tan, C. S. & Nam, D. (2023). High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering. Advanced Science, 10(17), e2207611-. https://dx.doi.org/10.1002/advs.202207611 2198-3844 https://hdl.handle.net/10356/169269 10.1002/advs.202207611 37072675 2-s2.0-85152919553 17 10 e2207611 en RG 115/21 MOE2018-T2-2-011 (S) NRF-CRP19-2017-01 NRF2018-NRF-ANR009 TIGER A2083c0053 Advanced Science © 2023 The Authors. Advanced Science published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Electrical and electronic engineering Identical Lasers Silicon Photonics Kim, Youngmin Joo, Hyo-Jun Chen, Melvina Son, Bongkwon Burt, Daniel Shi, Xuncheng Zhang, Lin Ikonic, Zoran Tan, Chuan Seng Nam, Donguk High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| description |
The technology to develop a large number of identical coherent light sources on an integrated photonics platform holds the key to the realization of scalable optical and quantum photonic circuits. Herein, a scalable technique is presented to produce identical on-chip lasers by dynamically controlled strain engineering. By using localized laser annealing that can control the strain in the laser gain medium, the emission wavelengths of several GeSn one-dimensional photonic crystal nanobeam lasers are precisely matched whose initial emission wavelengths are significantly varied. The method changes the GeSn crystal structure in a region far away from the gain medium by inducing Sn segregation in a dynamically controllable manner, enabling the emission wavelength tuning of more than 10 nm without degrading the laser emission properties such as intensity and linewidth. The authors believe that the work presents a new possibility to scale up the number of identical light sources for the realization of large-scale photonic-integrated circuits. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Kim, Youngmin Joo, Hyo-Jun Chen, Melvina Son, Bongkwon Burt, Daniel Shi, Xuncheng Zhang, Lin Ikonic, Zoran Tan, Chuan Seng Nam, Donguk |
| format |
Article |
| author |
Kim, Youngmin Joo, Hyo-Jun Chen, Melvina Son, Bongkwon Burt, Daniel Shi, Xuncheng Zhang, Lin Ikonic, Zoran Tan, Chuan Seng Nam, Donguk |
| author_sort |
Kim, Youngmin |
| title |
High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| title_short |
High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| title_full |
High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| title_fullStr |
High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| title_full_unstemmed |
High-precision wavelength tuning of GeSn nanobeam lasers via dynamically controlled strain engineering |
| title_sort |
high-precision wavelength tuning of gesn nanobeam lasers via dynamically controlled strain engineering |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169269 |
| _version_ |
1772828553381937152 |