Selective Excitation of Bloch Modes in Canalized Polaritonic Crystals

arXiv - PHYS - Optics Pub Date : 2024-09-15 DOI:arxiv-2409.09782

Yanzhen Yin, Zhichen Zhao, Junbo Xu, Zerui Wang, Lei Zhou, Zhou Zhou, Yu Yin, Di Huang, Gang Zhong, Xiang Ni, Zhanshan Wang, Xinbin Cheng, Jingyuan Zhu, Qingdong Ou, Tao Jiang

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Abstract

Polaritonic crystals (PoCs) have experienced significant advancements through involving hyperbolic polaritons in anisotropic materials such as $\alpha$-MoO$_{\rm 3}$, offering a promising approach for nanoscale light control and improved light-matter interactions. Notably, twisted bilayer $\alpha$-MoO$_{\rm 3}$ enables tunable iso-frequency contours (IFCs), especially generating flat IFCs at certain twist angles, which could enhance mode selectivity in their PoCs through the highly collimated and canalized polaritons. This study unveils the selective excitation of Bloch modes in PoCs with square-lattice structures on twisted bilayer $\alpha$-MoO$_{\rm 3}$ with canalized phonon polaritons. Through the optimization of the square lattice design, there is an effective redistribution of canalized polaritons into the reciprocal lattices of PoCs. Fine-tuning the periodicity and orientation of the hole lattice enables momentum matching between flat IFCs and co-linear reciprocal points, allowing precise and directional control over desired Bragg resonances and Bloch modes. This research establishes a versatile platform for tunable polaritonic devices and paves the way for advanced photonic applications.

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渠化极性晶体中布洛赫模式的选择性激发

通过在各向异性材料（如α-MoO）中加入双曲极化子，极化晶体（PoCs）取得了重大进展，为纳米级光控制和改善光物质相互作用提供了一种前景广阔的方法。值得注意的是，扭曲的双层$α-MoO$_{/rm 3}$能够实现可调等频轮廓（IFCs），尤其是在特定扭曲角度下产生平坦的IFCs，这可以通过高度准直和管道化的极化子增强其PoCs的模式选择性。本研究揭示了在扭曲双层$\alpha$-MoO$_{\rm 3}$上具有方晶格结构的PoC中，声子极化子的选择性激发布洛赫模式。通过优化方形晶格的设计，沟道化的极化子可以有效地重新分布到 PoC 的对数晶格中。通过微调孔晶格的周期性和方向，可以在平面 IFC 和共线性互补点之间实现动量匹配，从而对所需的布拉格共振和布洛赫模式进行精确的定向控制。这项研究建立了一个多功能平台，为先进的光子应用铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Optics

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