Nanometer-precision measurements of geometric fluctuations via momentum-filtered spectroscopy

Applied Physics Express Pub Date : 2024-07-03 DOI:10.35848/1882-0786/ad5f0e
Wenping Hu, Yingjun Zhang, Weihang Zhou
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Abstract

In this work, we report ultra-sensitive detection of geometric fluctuations of semiconductor nanostructures using momentum-filtered spectroscopy. Our strategy is developed based on angle-resolved photoluminescence / absorption spectroscopic imaging technique. By filtering out signals with non-zero in-plane momentum using a confocal pinhole, ultra-sensitive detection of tiny geometric fluctuations with nanometer precision was made possible. In this way, we could optically detect geometric fluctuations of semiconductor nanostructures in real time with a spatial resolution as high as ~ 0.2 nm. Moreover, this technique is widely applicable to nanostructures where optical resonance can be formed.
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通过动量滤波光谱对几何波动进行纳米级精确测量
在这项工作中,我们报告了利用动量滤波光谱技术对半导体纳米结构的几何波动进行超灵敏检测的情况。我们的策略是基于角度分辨光致发光/吸收光谱成像技术开发的。通过使用共焦针孔滤除非零平面动量信号,实现了纳米级精度的微小几何波动的超灵敏检测。通过这种方法,我们可以实时光学检测半导体纳米结构的几何波动,空间分辨率高达 ~ 0.2 nm。此外,这项技术还广泛适用于可形成光学共振的纳米结构。
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Applied Physics Express
Applied Physics Express
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