用像差校正的结构光改进双光子光聚合和光学捕获

IF 4.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
D. Armstrong, A. Stilgoe, T. Nieminen, H. Rubinsztein-Dunlop
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引用次数: 1

摘要

我们展示了结构光的纯相位像差校正的有效性及其在多功能光学捕获装置中的应用。我们使用空间光调制器(SLM)计算了高数值孔径显微镜物镜前后的相位校正,并研究了如何使用这些校正来提高通过双光子光聚合(2PP)制造的微结构的效率和分辨率。我们应用相位检索算法来校正飞秒激光器中的失真,该算法能够使用多达50个同时聚焦来制造3D结构。在制造过程中包括像差校正显示了对光学捕获颗粒的改进限制和更有效的聚合,同时最大限度地减少了单个焦点处的强度变化,这可能会在制造期间损坏结构。我们发现,当使用SLM时,相位校正允许一致的体素大小、增加的清晰度和扩大的有效打印范围,同时还允许更接近单个陷阱焦点,最大限度地减少阻碍制造分辨率的干扰效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved two-photon photopolymerisation and optical trapping with aberration-corrected structured light
We demonstrate the effectiveness of phase only aberration corrections of structured light and their application to versatile optical trapping setups. We calculate phase corrections before (ex-situ) and after (in-situ) a high numerical aperture microscope objective using a spatial light modulator (SLM), and investigate how these corrections can be used to improve the efficiency and resolution of micro-structures fabricated through two-photon-photopolymerisation (2PP). We apply a phase retrieval algorithm to correct for distortions in a femtosecond laser that enables the fabrication of 3D structures using as many as 50 simultaneous foci. The inclusion of aberration correction in the fabrication process shows improved confinement of optically trapped particles and more efficient polymerisation while minimising intensity variations at individual foci, which potentially damage the structure during fabrication. We find that phase corrections allow for consistent voxel sizes, increased sharpness, and an expanded effective printing range when using an SLM, while also allowing for closer proximity of individual trap foci, minimising interference effects that hinder fabrication resolution.
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来源期刊
Frontiers in Nanotechnology
Frontiers in Nanotechnology Engineering-Electrical and Electronic Engineering
CiteScore
7.10
自引率
0.00%
发文量
96
审稿时长
13 weeks
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