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Tunable C 4 -Symmetry-Broken Metasurfaces Based on Phase Transition of Vanadium Dioxide (VO 2 ).

Yuting ZhangXiaoyuan HaoXueguang LuMeng LiuWanxia HuangCheng ZhangWei HuangYi XuWentao Zhang
Published in: Materials (Basel, Switzerland) (2024)
Coupling is a ubiquitous phenomenon observed in various systems, which profoundly alters the original oscillation state of resonant systems and leads to the unique optical properties of metasurfaces. In this study, we introduce a terahertz (THz) tunable coupling metasurface characterized by a four-fold rotation (C 4 ) symmetry-breaking structural array achieved through the incorporation of vanadium dioxide (VO 2 ). This disruption of the C 4 symmetry results in dynamically controlled electromagnetic interactions and couplings between excitation modes. The coupling between new resonant modes modifies the peak of electromagnetic-induced transparency (EIT) within the C 4 symmetric metasurfaces, simulating the mutual interference process between modes. Additionally, breaking the C 4 symmetry enhances the mirror asymmetry, and imparts distinct chiral properties in the far-field during the experimental process. This research demonstrates promising applications in diverse fields, including biological monitoring, light modulation, sensing, and nonlinear enhancement.
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