一种用于原子探针的高压高频脉冲发生器结构的特性

2020 IEEE 15th International Conference of System of Systems Engineering (SoSE) Pub Date : 2020-06-01 DOI:10.1109/SoSE50414.2020.9130486

L. Rousseau, A. Normand, K. Tehrani, F. Vurpillot

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引用次数: 1

摘要

原子探针(AP)层析成像是一种能够在原子尺度上研究物质的表征技术。对材料结构和化学成分的了解是开发适应智能应用的新技术的基础。在本文中，我们对电压脉冲AP感兴趣，它工作在纳秒级的高压脉冲中。AP的关键性能之一是具有足够的分辨率，能够从背景尾噪声中区分出接近的质量峰或小峰。系统的效率与电压脉冲形状密切相关。通过比较电流脉冲发生器的特性，研究不同脉冲形状对原子表征的影响，我们将提出一种由自制固态马克思发生器和工业超短脉冲发生器组成的适合于AP的新脉冲配置。我们的目标是能够调制电压脉冲并优化质谱分辨率。

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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Characterization of a High Voltage and High Frequency pulse generator configuration for Atom Probe

Atom Probe (AP) Tomography is a characterization technique enabling the investigation of matter at the atomic scale. The knowledge of the structure and the chemical composition of the material is fundamental for the development of new technologies adapted to smart applications. In this paper, we get our interest to the Voltage Pulse AP, which works with a high voltage pulse of nanosecond duration. One of the key performance of the AP is to have a sufficient resolution to be able to distinguish close mass peaks or small peaks from the background tail noise. The efficiency of the system is closely related to the voltage pulse shape. By comparing current pulse generators characteristics and investigating the influence of different pulse shapes on characterization of atoms, we will propose a new pulse configuration adapted to AP composed of a homemade solid-state Marx generator and an industrial ultra short pulse generator. Our objectives are to be able to modulate the voltage pulse and optimize the Mass Spectrum resolution.

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2020 IEEE 15th International Conference of System of Systems Engineering (SoSE)

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