Characterization of resonator using confocal laser scanning microscopy and its application in air density sensing

arXiv - PHYS - Optics Pub Date : 2024-09-07 DOI:arxiv-2409.04823

Ayla Hazrathosseini, Mohit Khurana, Lanyin Luo, Zhenhuan Yi, Alexei Sokolov, Philip R. Hemmer, Marlan O. Scully

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Abstract

We present the characterization of the photonic waveguide resonator using confocal laser scanning microscopy imaging method. Free space TEM$_{00}$ laser mode is coupled into quasi-TE$_{0}$ waveguide mode using confocal microscopy via a diffractive grating coupler and vice versa. Our work includes the design, fabrication, and experimental characterization of a silicon nitride racetrack-shaped resonator of length ~ 165 um. We illustrate clear evidence of resonance excitation from the confocal microscope image and demonstrate loaded Q-factor and finesse ~ 8.2 \pm 0.17 * 10^4 and ~ 180 \pm 3.5, respectively. We further demonstrate its one application in air density sensing by measuring the resonance wavelength shifts with variation in environment air pressure. Our work impacts spectroscopy, imaging, and sensing applications of single or ensemble atoms or molecules coupled to photonic devices. Additionally, our study highlights the potential of confocal microscopy for analyzing photonic components on large-scale integrated circuits, providing high-resolution imaging and spectral characterization.

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共焦激光扫描显微镜对谐振器的表征及其在空气密度传感中的应用

我们采用共焦激光扫描显微镜成像方法对光子波导谐振器进行了表征。利用共焦显微镜，通过衍射光栅耦合器将自由空间 TEM_{00}$ 激光模式耦合到准 TE_{0}$ 波导模式，反之亦然。我们的工作包括设计、制造和实验表征一个长度约为 165 um 的硅氮化物乙rack 形谐振器。我们从共聚焦显微镜图像中清楚地展示了共振激发的证据，并分别展示了加载 Q 因子和精细度 ~ 8.2 \pm 0.17 * 10^4 和 ~ 180 \pm 3.5。通过测量共振波长随环境气压变化而发生的偏移，我们进一步证明了它在空气密度传感中的应用。我们的工作影响了与光子器件耦合的单个或整体原子或分子的光谱学、成像和传感应用。此外，我们的研究还强调了共聚焦显微镜在分析大规模集成电路上的光子元件、提供高分辨率成像和光谱表征方面的潜力。

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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