On the capabilities of k-ART over MD for the study of the kinetics of small point defect clusters in α-Fe

IF 2.8 2区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Nuclear Materials Pub Date : 2024-10-09 DOI:10.1016/j.jnucmat.2024.155444
N. Kvashin , N. Anento , G. Bonny , A. Serra , L. Malerba
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Abstract

Molecular Dynamics simulations, while contributing to the understanding of the mechanisms of diffusion and interactions of point defects and their clusters, are inherently limited in their temporal scope (few nanoseconds). This constraint becomes particularly evident when studying the dynamics of vacancies at low temperatures, where their jump frequency is exceedingly low, posing challenges for accurate reproduction. Additionally, the size of the simulation box imposes constraints, influencing the representation of the system and potentially affecting the accuracy of results. A relatively new kinetic activation-relaxation technique (k-ART) efficiently resolves the limitations of MD simulations, such as computation time and system dimensionality, without the need for a priori knowledge of the simulated system. This technique enables simulations lasting up to several seconds and encompassing systems with higher dimensions. In this paper we check the validity of k-ART to reproduce accurately the migration mechanisms and energies of point defects and small clusters, previously obtained by MD and validated experimentally. We point out the advantages and difficulties of using AKMC with k-ART.
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论 k-ART 在研究 α-Fe 中小点缺陷簇的动力学方面优于 MD 的能力
分子动力学模拟虽然有助于理解点缺陷及其团簇的扩散和相互作用机制,但其时间范围(几纳秒)本身是有限的。在研究低温下空位的动力学时,这种限制尤为明显,因为低温下空位的跃迁频率极低,给精确再现带来了挑战。此外,模拟盒的大小也会造成限制,影响系统的表现,并可能影响结果的准确性。一种相对较新的动力学激活-松弛技术(k-ART)能有效解决 MD 模拟的限制,如计算时间和系统维度,而无需先验地了解模拟系统。该技术可实现长达数秒的模拟,并涵盖维度更高的系统。在本文中,我们检验了 k-ART 在准确再现点缺陷和小集群的迁移机制和能量方面的有效性。我们指出了将 AKMC 与 k-ART 结合使用的优势和困难。
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来源期刊
Journal of Nuclear Materials
Journal of Nuclear Materials 工程技术-材料科学:综合
CiteScore
5.70
自引率
25.80%
发文量
601
审稿时长
63 days
期刊介绍: The Journal of Nuclear Materials publishes high quality papers in materials research for nuclear applications, primarily fission reactors, fusion reactors, and similar environments including radiation areas of charged particle accelerators. Both original research and critical review papers covering experimental, theoretical, and computational aspects of either fundamental or applied nature are welcome. The breadth of the field is such that a wide range of processes and properties in the field of materials science and engineering is of interest to the readership, spanning atom-scale processes, microstructures, thermodynamics, mechanical properties, physical properties, and corrosion, for example. Topics covered by JNM Fission reactor materials, including fuels, cladding, core structures, pressure vessels, coolant interactions with materials, moderator and control components, fission product behavior. Materials aspects of the entire fuel cycle. Materials aspects of the actinides and their compounds. Performance of nuclear waste materials; materials aspects of the immobilization of wastes. Fusion reactor materials, including first walls, blankets, insulators and magnets. Neutron and charged particle radiation effects in materials, including defects, transmutations, microstructures, phase changes and macroscopic properties. Interaction of plasmas, ion beams, electron beams and electromagnetic radiation with materials relevant to nuclear systems.
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