Complete Compressed Sensing System For Scanning Probe Microscopy

E.L. Principe, K.M. Scammon, B.W. Kempshall, J.J. Hagen
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引用次数: 0

Abstract

Abstract An approach to overcome barriers to practical Compressed Sensing (CS) implementation in serial scanning electron microscopes (SEM) or scanning transmission electron microscopes (STEM) is presented which integrates scan generator hardware specifically developed for CS, a novel and generalized CS sparse sampling strategy, and an ultra-fast reconstruction method, to form a complete CS system for 2D or 3D scanning probe microscopy. The system is capable of producing a wide variety of highly random sparse sampling scan patterns with any fractional degree of sparsity from 0- 99.9% while not requiring fast beam blanking. Reconstructing a 2kx2k or 4kx4k image requires ~150-300ms. The ultra-fast reconstruction means it is possible to view a dynamic reduced raster reconstructed image based upon a fractional real-time dose. This CS platform provides a framework to explore a rich environment of use cases in CS electron microscopy that benefit from the combination of faster acquisition and reduced probe interaction.
完整的压缩传感系统扫描探针显微镜
摘要提出了一种在串行扫描电子显微镜(SEM)或扫描透射电子显微镜(STEM)中实现压缩感知(CS)的方法,该方法集成了专门为CS开发的扫描生成器硬件、一种新颖的广义CS稀疏采样策略和一种超快速重建方法,形成了一个完整的二维或三维扫描探针显微镜的CS系统。该系统能够在不需要快速波束消隐的情况下,产生各种高度随机稀疏采样扫描模式,其稀疏度从0- 99.9%不等。重建2kx2k或4kx4k图像需要150-300ms。超快速重建意味着可以查看基于分数实时剂量的动态减少光栅重建图像。这个CS平台提供了一个框架来探索CS电子显微镜中丰富的用例环境,这些用例受益于更快的采集和减少探针交互的组合。
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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11 weeks
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