用晶体平均法去除扫描隧道显微镜图像中的多尖端伪影

IF 3.56 Q1 Medicine
Jack C. Straton, Bill Moon, Taylor T. Bilyeu, Peter Moeck
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引用次数: 12

摘要

晶体图像处理(CIP)技术可用于扫描探针显微镜(SPM),以收集被多个探针尖端的信号所掩盖的信息。这可能对扫描隧道显微镜(STM)特别重要,并且需要在二维(2D)中周期性地从样品中获取图像。通过对独立轨道近似(IOA)的轻微修改,推导出了STM中双尖端的成像电流,以允许两个或多个尖端。我们的分析阐明了为什么晶体平均可以很好地从记录的二维周期性图像中去除钝STM尖端(由多个小尖端组成)的影响,并且还概述了这种图像处理技术对于STM双尖端的某些空间分离的局限性。STM图像中多个小针尖效应的模拟(忽略电子干扰效应)可以理解为模拟用其他类型的spm记录的图像中的多个小针尖(或针尖形状)效应,只要待成像的横向样本特征尺寸远远大于有效扫描探针针尖尺寸。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Removal of multiple-tip artifacts from scanning tunneling microscope images by crystallographic averaging

Removal of multiple-tip artifacts from scanning tunneling microscope images by crystallographic averaging

Crystallographic image processing (CIP) techniques may be utilized in scanning probe microscopy (SPM) to glean information that has been obscured by signals from multiple probe tips. This may be of particular importance for scanning tunneling microscopy (STM) and requires images from samples that are periodic in two dimensions (2D). The image-forming current for double-tips in STM is derived with a slight modification of the independent-orbital approximation (IOA) to allow for two or more tips. Our analysis clarifies why crystallographic averaging works well in removing the effects of a blunt STM tip (that consists of multiple mini-tips) from recorded 2D periodic images and also outlines the limitations of this image-processing technique for certain spatial separations of STM double-tips. Simulations of multiple mini-tip effects in STM images (that ignore electron interference effects) may be understood as modeling multiple mini-tip (or tip shape) effects in images that were recorded with other types of SPMs as long as the lateral sample feature sizes to be imaged are much larger than the effective scanning probe tip sizes.

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来源期刊
Advanced Structural and Chemical Imaging
Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging
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