Angle-insensitive dual bound states in the continuum on germanium metasurface

IF 7.1 Chip Pub Date : 2025-03-01 Epub Date: 2024-12-27 DOI:10.1016/j.chip.2024.100121

Yiqing Liu , Jinwen Lv , Ye Fan , Meixue Zong , Shubin Zhang , Zhengji Xu

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Abstract

Metasurface-enabled bound states in the continuum (BICs) provide a novel solution for achieving exceptionally high quality factors (Q factors), which could overcome the limitations of traditional mid-infrared filters, sensors, lasers, and nonlinear sources. However, most BIC metasurfaces are restricted by their sensitivity to specific incident angles, limiting their practical applications. Here, we introduced a germanium-based metasurface that supports two BIC modes for different polarizations, exhibiting robust angle insensitivity. By leveraging geometric asymmetry, we effectively controlled BIC leakage and coupling. The device maintained infinite Q factors under oblique incidence with preserved symmetry, and exhibited stable quasi-BIC resonance wavelengths and linewidths even with broken symmetry, regardless of TE or TM polarization. This angular robustness has been validated both theoretically and experimentally, demonstrating its potential for broadening the applicability of high-performance mid-infrared optical devices.

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锗超表面连续介质中角不敏感的双束缚态

连续介质中的超表面约束态（bic）为实现高质量因子（Q因子）提供了一种新的解决方案，可以克服传统中红外滤光器、传感器、激光器和非线性源的局限性。然而，大多数BIC超表面受到特定入射角敏感性的限制，限制了它们的实际应用。在这里，我们介绍了一种基于锗的超表面，它支持两种不同偏振的BIC模式，表现出强大的角度不敏感性。利用几何不对称性，有效地控制了BIC泄漏和耦合。该器件在斜入射下保持了无限的Q因子，并保持了对称性，即使在对称性破坏的情况下，无论TE或TM极化，该器件都表现出稳定的准bic共振波长和线宽。这种角度鲁棒性在理论和实验上都得到了验证，证明了其扩大高性能中红外光学器件适用性的潜力。

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来源期刊

Chip

CiteScore

2.80

自引率

0.00%

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