Quasi-BIC laser enabled by high-contrast grating resonator for gas detection
In this work, we propose and numerically investigate a two-dimensional microlaser based on the concept of bound states in the continuum (BIC). The device consists of a thin gain layer (Rhodamine 6G dye-doped silica) sandwiched between two high-contrast-grating layers. The structure supports various...
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sg-ntu-dr.10356-1649372023-02-28T20:12:34Z Quasi-BIC laser enabled by high-contrast grating resonator for gas detection Zhang, Haoran Wang, Tao Tian, Jingyi Sun, Jiacheng Li, Shaoxian De Leon, Israel Zaccaria, Remo Proietti Peng, Liang Gao, Fei Lin, Xiao Chen, Hongsheng Wang, Gaofeng School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) The Photonics Institute Science::Physics Continuum Modes Dye-Doped In this work, we propose and numerically investigate a two-dimensional microlaser based on the concept of bound states in the continuum (BIC). The device consists of a thin gain layer (Rhodamine 6G dye-doped silica) sandwiched between two high-contrast-grating layers. The structure supports various BIC modes upon a proper choice of topological parameters; in particular it supports a high-Q quasi-BIC mode when partially breaking a bound state in the continuum at Γ point. The optically-pumped gain medium provides sufficient optical gain to compensate the quasi-BIC mode losses, enabling lasing with ultra-low pump threshold (fluence of 17 μJ/cm2) and very narrow optical linewidth in the visible range. This innovative device displays distinguished sensing performance for gas detection, and the emission wavelength sensitively shifts to the longer wavelength with the changing of environment refractive index (in order of 5 × 10-4). The achieved bulk sensitivity is 221 nm/RIU with a high signal to noise ratio, and a record-high figure of merit reaches to 4420 RIU-1. This ultracompact and low threshold quasi-BIC laser facilitated by the ultra-narrow resonance can serve as formidable candidate for on-chip gas sensor. Published version This work is supported in part by the National Natural Science Foundation of China (Grant No. 61804036, 61875051, 61801426), Zhejiang Province Natural Science Foundation (Grant No. LGJ20A040001, LR21F010002, Z20F010018), Federico Baur Endowed Chair in Nanotechnology, Fundamental Research Funds for the Central Universities and Zhejiang University Global Partnership Fund. 2023-02-28T06:19:10Z 2023-02-28T06:19:10Z 2022 Journal Article Zhang, H., Wang, T., Tian, J., Sun, J., Li, S., De Leon, I., Zaccaria, R. P., Peng, L., Gao, F., Lin, X., Chen, H. & Wang, G. (2022). Quasi-BIC laser enabled by high-contrast grating resonator for gas detection. Nanophotonics, 11(2), 297-304. https://dx.doi.org/10.1515/nanoph-2021-0368 2192-8614 https://hdl.handle.net/10356/164937 10.1515/nanoph-2021-0368 2-s2.0-85121149289 2 11 297 304 en Nanophotonics © 2021 Haoran Zhang et al., published by De Gruyter. This work is licensed under the Creative Commons Attribution 4.0 International License. application/pdf |
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Science::Physics Continuum Modes Dye-Doped |
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Science::Physics Continuum Modes Dye-Doped Zhang, Haoran Wang, Tao Tian, Jingyi Sun, Jiacheng Li, Shaoxian De Leon, Israel Zaccaria, Remo Proietti Peng, Liang Gao, Fei Lin, Xiao Chen, Hongsheng Wang, Gaofeng Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| description |
In this work, we propose and numerically investigate a two-dimensional microlaser based on the concept of bound states in the continuum (BIC). The device consists of a thin gain layer (Rhodamine 6G dye-doped silica) sandwiched between two high-contrast-grating layers. The structure supports various BIC modes upon a proper choice of topological parameters; in particular it supports a high-Q quasi-BIC mode when partially breaking a bound state in the continuum at Γ point. The optically-pumped gain medium provides sufficient optical gain to compensate the quasi-BIC mode losses, enabling lasing with ultra-low pump threshold (fluence of 17 μJ/cm2) and very narrow optical linewidth in the visible range. This innovative device displays distinguished sensing performance for gas detection, and the emission wavelength sensitively shifts to the longer wavelength with the changing of environment refractive index (in order of 5 × 10-4). The achieved bulk sensitivity is 221 nm/RIU with a high signal to noise ratio, and a record-high figure of merit reaches to 4420 RIU-1. This ultracompact and low threshold quasi-BIC laser facilitated by the ultra-narrow resonance can serve as formidable candidate for on-chip gas sensor. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Zhang, Haoran Wang, Tao Tian, Jingyi Sun, Jiacheng Li, Shaoxian De Leon, Israel Zaccaria, Remo Proietti Peng, Liang Gao, Fei Lin, Xiao Chen, Hongsheng Wang, Gaofeng |
| format |
Article |
| author |
Zhang, Haoran Wang, Tao Tian, Jingyi Sun, Jiacheng Li, Shaoxian De Leon, Israel Zaccaria, Remo Proietti Peng, Liang Gao, Fei Lin, Xiao Chen, Hongsheng Wang, Gaofeng |
| author_sort |
Zhang, Haoran |
| title |
Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| title_short |
Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| title_full |
Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| title_fullStr |
Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| title_full_unstemmed |
Quasi-BIC laser enabled by high-contrast grating resonator for gas detection |
| title_sort |
quasi-bic laser enabled by high-contrast grating resonator for gas detection |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164937 |
| _version_ |
1759857215627329536 |