Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides
Topological and non-Hermitian physics provide powerful tools for manipulating light in different ways. Recently, intense studies have converged on the interplay between topology and non-Hermiticity, and have produced fruitful results in various photonic settings. Currently, the realization of this i...
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sg-ntu-dr.10356-1706352023-09-25T02:07:26Z Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides Xie, Xinrong Wei, Maoliang Yang, Yumeng Li, Yuanzhen Lei, Kunhao Zhang, Zijian Wang, Chi Zhong, Chuyu Li, Lan Wang, Zuojia Sha, Wei E. I. Li, Erping Xue, Haoran Yang, Zhaoju Yuan, Luqi Chen, Hongsheng Lin, Hongtao Gao, Fei School of Physical and Mathematical Sciences Science::Physics Anti-parity-time Symmetry Phase Transitions Topological and non-Hermitian physics provide powerful tools for manipulating light in different ways. Recently, intense studies have converged on the interplay between topology and non-Hermiticity, and have produced fruitful results in various photonic settings. Currently, the realization of this interplay falls under the paradigm of enabling energy exchange between topological systems and the environment. Beyond this paradigm, it is revealed that a non-Hermitian phenomenon, i.e., the anti-parity-time phase transition, naturally emerges from a Hermitian system realized by coupled topological valley waveguides. Such phase transition gives two exotic topological superstates in the spectral domain. By further combining the two phases with topological robustness, a photonic topological bi-functional device is realized on a silicon-on-insulator platform at telecommunications frequencies. The results provide a new perspective on light manipulation and integrated device applications. This work was supported by the National Key Research and Development Program of China under Grants no. 2022YFA1404902, 2022YFA1404704, 2022YFA1405200 and 2019YFB2203002, the National Natural Science Foundation of China (NNSFC) under grant no. 62171406, 11961141010, 61975176, 91950204, 61975177, and U20A20164, the Zhejiang Provincial Natural Science Foundation under grants no. Z20F010018, the Key Research and Development Program of Zhejiang Province under grant no. 2022C01036, and the Fundamental Research Funds for the Central Universities. 2023-09-25T02:07:26Z 2023-09-25T02:07:26Z 2023 Journal Article Xie, X., Wei, M., Yang, Y., Li, Y., Lei, K., Zhang, Z., Wang, C., Zhong, C., Li, L., Wang, Z., Sha, W. E. I., Li, E., Xue, H., Yang, Z., Yuan, L., Chen, H., Lin, H. & Gao, F. (2023). Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides. Advanced Functional Materials, 33(38), 2302197-. https://dx.doi.org/10.1002/adfm.202302197 1616-301X https://hdl.handle.net/10356/170635 10.1002/adfm.202302197 2-s2.0-85160858322 38 33 2302197 en Advanced Functional Materials © 2023 Wiley-VCH GmbH. All rights reserved. |
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Science::Physics Anti-parity-time Symmetry Phase Transitions Xie, Xinrong Wei, Maoliang Yang, Yumeng Li, Yuanzhen Lei, Kunhao Zhang, Zijian Wang, Chi Zhong, Chuyu Li, Lan Wang, Zuojia Sha, Wei E. I. Li, Erping Xue, Haoran Yang, Zhaoju Yuan, Luqi Chen, Hongsheng Lin, Hongtao Gao, Fei Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| description |
Topological and non-Hermitian physics provide powerful tools for manipulating light in different ways. Recently, intense studies have converged on the interplay between topology and non-Hermiticity, and have produced fruitful results in various photonic settings. Currently, the realization of this interplay falls under the paradigm of enabling energy exchange between topological systems and the environment. Beyond this paradigm, it is revealed that a non-Hermitian phenomenon, i.e., the anti-parity-time phase transition, naturally emerges from a Hermitian system realized by coupled topological valley waveguides. Such phase transition gives two exotic topological superstates in the spectral domain. By further combining the two phases with topological robustness, a photonic topological bi-functional device is realized on a silicon-on-insulator platform at telecommunications frequencies. The results provide a new perspective on light manipulation and integrated device applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Xie, Xinrong Wei, Maoliang Yang, Yumeng Li, Yuanzhen Lei, Kunhao Zhang, Zijian Wang, Chi Zhong, Chuyu Li, Lan Wang, Zuojia Sha, Wei E. I. Li, Erping Xue, Haoran Yang, Zhaoju Yuan, Luqi Chen, Hongsheng Lin, Hongtao Gao, Fei |
| format |
Article |
| author |
Xie, Xinrong Wei, Maoliang Yang, Yumeng Li, Yuanzhen Lei, Kunhao Zhang, Zijian Wang, Chi Zhong, Chuyu Li, Lan Wang, Zuojia Sha, Wei E. I. Li, Erping Xue, Haoran Yang, Zhaoju Yuan, Luqi Chen, Hongsheng Lin, Hongtao Gao, Fei |
| author_sort |
Xie, Xinrong |
| title |
Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| title_short |
Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| title_full |
Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| title_fullStr |
Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| title_full_unstemmed |
Harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| title_sort |
harnessing anti-parity-time phase transition in coupled topological photonic valley waveguides |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170635 |
| _version_ |
1779156366313652224 |