Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions
Interference between the electric and magnetic dipole-induced in Mie nanostructures has been widely demonstrated to tailor the scattering field, which was commonly used in optical nano-antennas, filters, and routers. The dynamic control of scattering fields based on dielectric nanostructures is inte...
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sg-ntu-dr.10356-1815512024-12-13T15:42:25Z Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions Zhu, Yanlin Li, Shulei Zhang, Yang Meng, Jinjing Tan, Xu Chen, Jingdong Panmai, Mingcheng Xiang, Jin School of Electrical and Electronic Engineering Engineering Vanadium dioxide Mie resonance Interference between the electric and magnetic dipole-induced in Mie nanostructures has been widely demonstrated to tailor the scattering field, which was commonly used in optical nano-antennas, filters, and routers. The dynamic control of scattering fields based on dielectric nanostructures is interesting for fundamental research and important for practical applications. Here, it is shown theoretically that the amplitude of the electric and magnetic dipoles induced in a vanadium dioxide nanosphere can be manipulated by using laser-induced metal-insulator transitions, and it is experimentally demonstrated that the directional scattering can be controlled by simply varying the irradiances of the excitation laser. As a straightforward application, we demonstrate a high-performance optical modulator in the visible band with high modulation depth, fast modulation speed, and high reproducibility arising from a backscattering setup with the quasi-first Kerker condition. Our method indicates the potential applications in developing nanoscale optical antennas and optical modulation devices. Published version The authors are grateful for the financial support from the National Natural Science Foundation of China (Grant No. 62305035), the Natural Science Foundation of Chongqing, China (Grant No. 2023NSCQ-MSX2201), the Natural Science Foundation of Guangdong Province, China (Grant No. 2022A1515010747), the Natural Science Foundation of Fujian Province (No. 2023J01923) and the Natural Science Foundation of Zhangzhou (No. ZZ2021J11). 2024-12-09T05:14:44Z 2024-12-09T05:14:44Z 2024 Journal Article Zhu, Y., Li, S., Zhang, Y., Meng, J., Tan, X., Chen, J., Panmai, M. & Xiang, J. (2024). Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions. Nanophotonics, 13(20), 3815-3823. https://dx.doi.org/10.1515/nanoph-2024-0154 2192-8614 https://hdl.handle.net/10356/181551 10.1515/nanoph-2024-0154 39633729 2-s2.0-85197919506 20 13 3815 3823 en Nanophotonics © 2024 the author(s), published by De Gruyter. This work is licensed under the Creative Commons Attribution 4.0 International License. application/pdf |
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Nanyang Technological University |
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Engineering Vanadium dioxide Mie resonance |
| spellingShingle |
Engineering Vanadium dioxide Mie resonance Zhu, Yanlin Li, Shulei Zhang, Yang Meng, Jinjing Tan, Xu Chen, Jingdong Panmai, Mingcheng Xiang, Jin Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| description |
Interference between the electric and magnetic dipole-induced in Mie nanostructures has been widely demonstrated to tailor the scattering field, which was commonly used in optical nano-antennas, filters, and routers. The dynamic control of scattering fields based on dielectric nanostructures is interesting for fundamental research and important for practical applications. Here, it is shown theoretically that the amplitude of the electric and magnetic dipoles induced in a vanadium dioxide nanosphere can be manipulated by using laser-induced metal-insulator transitions, and it is experimentally demonstrated that the directional scattering can be controlled by simply varying the irradiances of the excitation laser. As a straightforward application, we demonstrate a high-performance optical modulator in the visible band with high modulation depth, fast modulation speed, and high reproducibility arising from a backscattering setup with the quasi-first Kerker condition. Our method indicates the potential applications in developing nanoscale optical antennas and optical modulation devices. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhu, Yanlin Li, Shulei Zhang, Yang Meng, Jinjing Tan, Xu Chen, Jingdong Panmai, Mingcheng Xiang, Jin |
| format |
Article |
| author |
Zhu, Yanlin Li, Shulei Zhang, Yang Meng, Jinjing Tan, Xu Chen, Jingdong Panmai, Mingcheng Xiang, Jin |
| author_sort |
Zhu, Yanlin |
| title |
Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| title_short |
Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| title_full |
Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| title_fullStr |
Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| title_full_unstemmed |
Dynamic control of the directional scattering of single Mie particle by laser induced metal insulator transitions |
| title_sort |
dynamic control of the directional scattering of single mie particle by laser induced metal insulator transitions |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181551 |
| _version_ |
1819112947243286528 |