高阶涡旋光束增强MINFLUX纳米显微镜

IF 20.6 Q1 OPTICS

Light-Science & Applications Pub Date : 2025-05-06 DOI:10.1038/s41377-025-01822-0

Xiao-Jie Tan, Zhiwei Huang

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引用次数: 0

摘要

最小光子通量（MINFLUX）纳米显微镜已经成为超分辨率成像的变革性进步，在不同的生物场景中实现了前所未有的纳米级观察。在这项工作中，我们首次提出使用高阶涡旋光束可以显著提高MINFLUX的性能，超越了使用一阶涡旋光束的传统MINFLUX的局限性。我们的理论分析表明，对于标准MINFLUX，高阶涡旋光束可以通过与其阶数相对应的因子提高最大定位精度，在最佳条件下可以接近亚纳米尺度；对于光栅扫描MINFLUX，高阶涡旋光束可以在保持更高精度的同时获得更宽的视场。这些发现强调了高阶涡旋光束提高MINFLUX性能的潜力，为超高分辨率成像的广泛应用铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

MINFLUX nanoscopy enhanced with high-order vortex beams

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MINFLUX nanoscopy enhanced with high-order vortex beams

Minimal photon fluxes (MINFLUX) nanoscopy has emerged as a transformative advancement in superresolution imaging, enabling unprecedented nanoscale observations across diverse biological scenarios. In this work, we propose, for the first time, that employing high-order vortex beams can significantly enhance the performance of MINFLUX, surpassing the limitations of the conventional MINFLUX using the first-order vortex beam. Our theoretical analysis indicates that, for standard MINFLUX, high-order vortex beams can improve the maximum localization precision by a factor corresponding to their order, which can approach a sub-nanometer scale under optimal conditions, and for raster scan MINFLUX, high-order vortex beams allow for a wider field of view while maintaining enhanced precision. These findings underscore the potential of high-order vortex beams to elevate the performance of MINFLUX, paving the way towards ultra-high resolution imaging for a broad range of applications.

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来源期刊

Light-Science & Applications 数理科学, 物理学I, 光学, 凝聚态物性 II ：电子结构、电学、磁学和光学性质, 无机非金属材料, 无机非金属类光电信息与功能材料, 工程与材料, 信息科学, 光学和光电子学, 光学和光电子材料, 非线性光学与量子光学

自引率

0.00%

发文量

803

审稿时长

2.1 months