Simulation of the Dynamics of Supersonic N-Crowdions in fcc Lead and Nickel

IF 1.5 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
A. Bayazitov, A. Semenov, S. V. Dmitriev
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引用次数: 0

Abstract

In the case where an interstitial atom is located in a close-packed atomic row of the crystal lattice, it is called a crowdion. Crowdions play an important role in the processes of mass and energy transfer resulting from irradiation, severe plastic deformation, ion implantation, plasma and laser processing, etc. In this work, supersonic N-crowdions (N=1, 2) in fcc lattices of lead and nickel are studied by the method of molecular dynamics. Modeling shows that the propagation distance of a supersonic 2-crowdion in lead at a high initial velocity is less than that of a supersonic 1-crowdion. In other fcc metals studied, including nickel, supersonic 2-crowdions have a longer propagation distance than 1-crowdions. The relatively short propagation distance of supersonic 2-crowdions in lead is due to their instability and rapid transformation into supersonic 1-crowdions. This feature of the dynamics of supersonic N-crowdions in lead explains its high radiation-shielding properties.
超声速氮离子在fcc铅镍中的动力学模拟
在这种情况下,一个间隙原子位于一个紧密排列的原子行晶体晶格,它被称为拥挤。群体在辐照、剧烈塑性变形、离子注入、等离子体和激光加工等过程中产生的质量和能量传递过程中起着重要作用。本文用分子动力学方法研究了铅和镍的fcc晶格中N= 1,2的超声速N群离子。模拟结果表明,在高初速条件下,超声速2-crowdion在铅中的传播距离小于超声速1-crowdion。在所研究的其他fcc金属中,包括镍,超音速2群离子比1群离子具有更长的传播距离。超声速2-群在铅中的传播距离相对较短是由于它们的不稳定性和向超声速1-群的快速转化。超声速n-离子在铅中的动力学特性解释了其高辐射屏蔽性能。
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来源期刊
Micro & Nano Letters
Micro & Nano Letters 工程技术-材料科学:综合
CiteScore
3.30
自引率
0.00%
发文量
58
审稿时长
2.8 months
期刊介绍: Micro & Nano Letters offers express online publication of short research papers containing the latest advances in miniature and ultraminiature structures and systems. With an average of six weeks to decision, and publication online in advance of each issue, Micro & Nano Letters offers a rapid route for the international dissemination of high quality research findings from both the micro and nano communities. Scope Micro & Nano Letters offers express online publication of short research papers containing the latest advances in micro and nano-scale science, engineering and technology, with at least one dimension ranging from micrometers to nanometers. Micro & Nano Letters offers readers high-quality original research from both the micro and nano communities, and the materials and devices communities. Bridging this gap between materials science and micro and nano-scale devices, Micro & Nano Letters addresses issues in the disciplines of engineering, physical, chemical, and biological science. It places particular emphasis on cross-disciplinary activities and applications. Typical topics include: Micro and nanostructures for the device communities MEMS and NEMS Modelling, simulation and realisation of micro and nanoscale structures, devices and systems, with comparisons to experimental data Synthesis and processing Micro and nano-photonics Molecular machines, circuits and self-assembly Organic and inorganic micro and nanostructures Micro and nano-fluidics
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