金刚石中杂质原子构型及其扫描透射电子显微镜成像可见性

IF 2.9 Q3 CHEMISTRY, PHYSICAL
Diana Propst, Jani Kotakoski, Elina Harriet Åhlgren
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引用次数: 0

摘要

摘要金刚石中分散的杂质为量子信息学、自旋电子学和单声子发射体的研究提供了一个蓬勃发展的平台。在大量描述金刚石中杂质原子的实验和理论工作的基础上,我们回顾了化学元素的结构,讨论了相关的原子结构和最重要的性质。掺杂结构从单掺杂扩展到共掺杂构型,也与碳空位结合。尽管它们很重要,但除了计算模型之外,人们对与掺杂物结构相关的确切原子构型知之甚少,部分原因是它们在微观观察方面存在困难。为了评估这些结构的可见性,我们进行了图像模拟,表明在扫描透射电子显微镜环形暗场图像中可以很容易地识别较重的掺杂剂,离焦可见窗口高达±10 nm以上。我们进一步展示了金刚石晶格中杂质原子构型(取代Er原子)的第一个原子分辨率图像,并通过与模拟图像的比较证实了这一点。总的来说,我们的研究结果表明,在解决金刚石中各种杂质原子构型的确切原子结构方面,有广阔的研究领域等待显微镜界。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impurity atom configurations in diamond and their visibility via scanning transmission electron microscopy imaging
Abstract Dispersed impurities in diamond present a flourishing platform for research in quantum informatics, spintronics and single phonon emitters. Based on the vast pool of experimental and theoretical work describing impurity atoms in diamond, we review the configurations by the chemical element discussing the relevant atomic configurations and most important properties. Dopant structures expand from single to co-doping configurations, also combined with carbon vacancies. Despite of their importance, not much is known about the exact atomic configurations associated with the dopant structures beyond computational models, partially due to difficulties in their microscopic observation. To assess the visibility of these structures, we carry out image simulations to show that the heavier dopants may be easily discernible in scanning transmission electron microscopy annular dark field images, with a window of visibility of up to over ± 10 nm in defocus. We further present the first atomic resolution images of an impurity atom configuration (substitutional Er atom) in the diamond lattice, confirmed by a comparison to the simulated images. Overall, our results demonstrate that there is a vast research field waiting for the microscopy community in resolving the exact atomic structure of various impurity atom configurations in diamond.
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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