Universal radiation dynamics by temporal transitions in optical waveguides

arXiv - PHYS - Optics Pub Date : 2024-09-17 DOI:arxiv-2409.11526

Amir Shlivinski, Yakir Hadad

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Abstract

When an excited electromagnetically open optical waveguide goes through a temporal transition of its material properties, it radiates to the ambient surroundings. In this letter, we explore this radiation and reveal, using asymptotic evaluation of path integral in the complex frequency (Laplace) plane, a peculiar space-time dependence of its frequency. Specifically, we derive an exact formula (Eq. (11)) for the instantaneous radiation frequency, which exhibits a chirp behavior with respect to time. This simple formula depends on the ambient properties and on the longitudinal wavenumber \beta of the guided mode before the temporal transition but not on the specific waveguide structure or materials. In addition, we derive a t^(-3/2) decay rate of the radiative field on time. We verify our analytic results using full-wave simulations of a dispersive and lossy Indium Tin Oxide waveguide that undergoes smooth temporal long transitions over up to ~200 cycles at the initially guided mode frequency. Thus, these theoretical findings offer valuable insights into the behavior of general optical waveguides experiencing temporal transitions and provide a powerful tool for analyzing and designing such THz and optical setups, with potential use in sensing and imaging.

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通过光波导中的时间转换实现通用辐射动力学

当一个受激电磁开放光波导经历其材料特性的时变时，它会向周围环境辐射。在这封信中，我们探讨了这种辐射，并利用复频（拉普拉斯）平面路径积分的渐近评估，揭示了其频率的奇特时空依赖性。具体地说，我们得出了瞬时辐射频率的精确公式（式 (11)），它表现出一种与时间有关的啁啾行为。这个简单的公式取决于环境特性和导波模式在时间转换之前的纵向波数（β），而与具体的波导结构或材料无关。此外，我们还推导出了辐射场在时间上的 t^(-3/2) 衰减率。我们通过对色散和有损氧化铟锡波导的全波模拟验证了我们的分析结果，该波导在最初的导波模式频率上经历了长达 ~200 个周期的平滑时变。因此，这些理论发现为了解经历时间转换的普通光波导的行为提供了宝贵的见解，并为分析和设计此类太赫兹和光学设置提供了强大的工具，有望用于传感和成像。

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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