Strain-enabled phase transition of periodic metasurfaces
Phase transitions are universal in solid-state matters, as well as in periodic electromagnetic metasurfaces-the photonic analogues of crystals. Although such transitions dictate the properties of active metasurfaces, universal ways to describe the structure transition of periodic metasurfaces have n...
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sg-ntu-dr.10356-1563922023-07-14T16:05:45Z Strain-enabled phase transition of periodic metasurfaces Yu, Jiancan Liu, Zhihua Wang, Ming Wang, Changxian Chen, Geng Cui, Zequn Wang, Ting Yang, Hui Wang, Xiaotian Chen, Xiaodong School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Innovative Centre for Flexible Devices Max Planck-NTU Joint Lab for Artificial Senses Engineering::Materials Bravais Lattices Metasurfaces Phase transitions are universal in solid-state matters, as well as in periodic electromagnetic metasurfaces-the photonic analogues of crystals. Although such transitions dictate the properties of active metasurfaces, universal ways to describe the structure transition of periodic metasurfaces have not yet been established. Here, the authors report the strain-enabled phase transition (or lattice deformation) of stretchable metasurfaces with the crystallographic description. They analytically and experimentally demonstrate the phase transition of plasmonic lattices between two arbitrary 2D Bravais lattices under certain strain configurations. The strain-induced symmetry lowering of the structures gives rise to optical anisotropy upon polarization, namely, linearly and circularly polarized dichroism. They further demonstrate the potential of phase transition in information decoding with applied strain. Interpreting the phase transition of metasurfaces from a standpoint of symmetry would accelerate the discovery of emergent properties, and provide a generalizable approach to designing active metasurfaces. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This work was supported by Singapore Ministry of Education (MOE2017-T2-2-107 and MOE2019-T2-2-022) and the National Research Foundation (NRF), Prime Minister’s Office, Singapore, under its NRF Investigatorship (NRF-NRFI2017-07). 2022-04-19T06:19:22Z 2022-04-19T06:19:22Z 2022 Journal Article Yu, J., Liu, Z., Wang, M., Wang, C., Chen, G., Cui, Z., Wang, T., Yang, H., Wang, X. & Chen, X. (2022). Strain-enabled phase transition of periodic metasurfaces. Advanced Materials, 34(1), 2102560-. https://dx.doi.org/10.1002/adma.202102560 0935-9648 https://hdl.handle.net/10356/156392 10.1002/adma.202102560 34632642 2-s2.0-85117458822 1 34 2102560 en MOE2017-T2-2-107 MOE2019-T2-2-022 NRF-NRFI2017-07 Advanced Materials This is the peer reviewed version of the following article: Yu, J., Liu, Z., Wang, M., Wang, C., Chen, G., Cui, Z., Wang, T., Yang, H., Wang, X. & Chen, X. (2022). Strain-enabled phase transition of periodic metasurfaces. Advanced Materials, 34(1), 2102560-, which has been published in final form at https://doi.org/10.1002/adma.202102560. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Materials Bravais Lattices Metasurfaces Yu, Jiancan Liu, Zhihua Wang, Ming Wang, Changxian Chen, Geng Cui, Zequn Wang, Ting Yang, Hui Wang, Xiaotian Chen, Xiaodong Strain-enabled phase transition of periodic metasurfaces |
| description |
Phase transitions are universal in solid-state matters, as well as in periodic electromagnetic metasurfaces-the photonic analogues of crystals. Although such transitions dictate the properties of active metasurfaces, universal ways to describe the structure transition of periodic metasurfaces have not yet been established. Here, the authors report the strain-enabled phase transition (or lattice deformation) of stretchable metasurfaces with the crystallographic description. They analytically and experimentally demonstrate the phase transition of plasmonic lattices between two arbitrary 2D Bravais lattices under certain strain configurations. The strain-induced symmetry lowering of the structures gives rise to optical anisotropy upon polarization, namely, linearly and circularly polarized dichroism. They further demonstrate the potential of phase transition in information decoding with applied strain. Interpreting the phase transition of metasurfaces from a standpoint of symmetry would accelerate the discovery of emergent properties, and provide a generalizable approach to designing active metasurfaces. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Yu, Jiancan Liu, Zhihua Wang, Ming Wang, Changxian Chen, Geng Cui, Zequn Wang, Ting Yang, Hui Wang, Xiaotian Chen, Xiaodong |
| format |
Article |
| author |
Yu, Jiancan Liu, Zhihua Wang, Ming Wang, Changxian Chen, Geng Cui, Zequn Wang, Ting Yang, Hui Wang, Xiaotian Chen, Xiaodong |
| author_sort |
Yu, Jiancan |
| title |
Strain-enabled phase transition of periodic metasurfaces |
| title_short |
Strain-enabled phase transition of periodic metasurfaces |
| title_full |
Strain-enabled phase transition of periodic metasurfaces |
| title_fullStr |
Strain-enabled phase transition of periodic metasurfaces |
| title_full_unstemmed |
Strain-enabled phase transition of periodic metasurfaces |
| title_sort |
strain-enabled phase transition of periodic metasurfaces |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156392 |
| _version_ |
1773551380735197184 |