A Colour-Encoded Nanometric Ruler for Axial Super-Resolution Microscopies

arXiv - QuanBio - Subcellular Processes Pub Date : 2023-11-01 DOI:arxiv-2311.00590

Ilya Olevsko, Omer Shavit, Moshe Feldberg, Yossi Abulafia, Adi Salomon, Martin Oheim

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Abstract

Recent progress has boosted the resolving power of optical microscopies to spatial dimensions well below the diffraction limit. Yet, axial super-resolution and axial single-molecule localisation typically require more complicated implementations than their lateral counterparts. In the present work, we propose a simple solution for axial metrology by providing a multi-layered single-excitation, dual-emission test slide, in which axial distance is colour-encoded. Our test slide combines on a standard microscope coverslip substrate two flat, thin, uniform and brightly emitting fluorophore layers, separated by a nanometric transparent spacer layer having a refractive index close to a biological cell. The ensemble is sealed in an index-matched protective polymer. As a proof-of-principle, we estimate the light confinement resulting from evanescent-wave excitation in total internal reflection fluorescence (TIRF) microscopy. Our test sample permits, even for the non-expert user, a facile axial metrology at the sub-100-nm scale, a critical requirement for axial super-resolution, as well as near-surface imaging, spectroscopy and sensing.

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用于轴向超分辨率显微镜的颜色编码纳米尺

最近的进展将光学显微镜的分辨能力提高到远低于衍射极限的空间维度。然而，轴向超分辨率和轴向单分子定位通常需要比其横向对应更复杂的实现。在本工作中，我们提出了一种简单的轴向测量解决方案，通过提供多层单激励，双发射测试载片，其中轴向距离是彩色编码的。我们的测试载玻片在一个标准的显微镜覆盖衬底上结合了两个平坦、薄、均匀、发光的荧光层，由一个纳米级透明间隔层隔开，其折射率接近生物细胞。整体密封在指数匹配的保护聚合物中。作为原理证明，我们估计了全内反射荧光(TIRF)显微镜中由倏逝波激发引起的光限制。我们的测试样品允许，即使对于非专家用户，在亚100纳米尺度上进行简单的轴向计量，这是轴向超分辨率的关键要求，以及近表面成像，光谱和传感。

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 - QuanBio - Subcellular Processes

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