Reconfigurable (4, 6²) and (4, 8²) Archimedean Plasma Photonic Crystals in Dielectric Barrier Discharge

Rui Li, Qi-han Wang, Fucheng Liu, Kuangya Gao, Xiaohan Hou, Mengmeng Jia, Qing Li, Weili Fan
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Abstract

Archimedean photonic crystal has become a research area of great interest due to its various unique properties. Here, we experimentally demonstrate the realization of reconfigurable (4, 6²) and (4, 8²) Archimedean plasma photonic crystals (APPCs) by the use of dielectric barrier discharges in air. Dynamical control on both the macrostructures including the lattice symmetry and the crystal orientation, and the microstructures including the fine structures of scattering elements has been achieved. The formation mechanisms of APPCs are studied by time-resolved measurements together with numerical simulations. Large omnidirectional band gaps of APPCs have been obtained. The tunable topology of APPCs may offer new opportunities for fabricating multi-functional and highly-integrated microwave devices.
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介质势垒放电中可重构的 (4, 6²) 和 (4, 8²) 阿基米德等离子体光子晶体
阿基米德光子晶体因其各种独特性能而成为备受关注的研究领域。在这里,我们通过实验演示了利用空气中的介质势垒放电实现可重构的(4, 6²)和(4, 8²)阿基米德等离子光子晶体(APPC)。我们实现了对宏观结构(包括晶格对称性和晶体取向)和微观结构(包括散射元件的精细结构)的动态控制。通过时间分辨测量和数值模拟研究了 APPC 的形成机制。获得了 APPC 的大全向带隙。APPC 的可调拓扑结构为制造多功能、高集成度的微波器件提供了新的机遇。
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