自由 Nin 簇的结构和振动（n ≤ 20）

IF 1.8 4区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Physical Mesomechanics Pub Date : 2024-04-16 DOI:10.1134/S1029959924020085

S. D. Borisova, G. G. Rusina

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引用次数: 0

摘要

摘要利用嵌入原子法中发现的原子间相互作用势计算了小型自由 Nin 簇（n ≤ 20）的结合能、平衡几何和振动频率。对稳定能量参数 ΔE2 和解离能的计算表明，能量最稳定的原子团是那些原子数为 n = 4、6、13 和 19 的原子团。对原子振动的计算显示，对原子团稳定性的动态贡献由最小振动频率决定，其极值落在具有神奇原子数 n = 4、6、13 和 19 的原子团上。最大振动频率的变化是非单调的，在原子数为 n < 19 的原子团中，最大振动频率的极值并不清晰。这一结果与现有的中小型金属簇稳定结构的实验数据一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Structure and Vibrations of Free Nin Clusters (n ≤ 20)

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Structure and Vibrations of Free Nin Clusters (n ≤ 20)

The binding energy, equilibrium geometry, and vibrational frequencies of small free Ni_n clusters (n ≤ 20) are calculated using interatomic interaction potentials found within the embedded atom method. Calculations of the energy parameter of stability ΔE₂ and dissociation energy show that the most energetically stable clusters are those with the magic numbers of atoms n = 4, 6, 13, and 19. Calculations of atomic vibrations reveal that the dynamic contribution to the stability of clusters is determined by the minimum vibrational frequency, whose extreme values fall on clusters with the magic numbers of atoms n = 4, 6, 13, and 19. The maximum vibrational frequency varies nonmonotonically, and it has unclear extreme values for clusters with n < 19. This result is consistent with the available experimental data on stable structures of small and medium-sized metal clusters.

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来源期刊

Physical Mesomechanics Materials Science-General Materials Science

CiteScore

3.50

自引率

18.80%

发文量

期刊介绍： The journal provides an international medium for the publication of theoretical and experimental studies and reviews related in the physical mesomechanics and also solid-state physics, mechanics, materials science, geodynamics, non-destructive testing and in a large number of other fields where the physical mesomechanics may be used extensively. Papers dealing with the processing, characterization, structure and physical properties and computational aspects of the mesomechanics of heterogeneous media, fracture mesomechanics, physical mesomechanics of materials, mesomechanics applications for geodynamics and tectonics, mesomechanics of smart materials and materials for electronics, non-destructive testing are viewed as suitable for publication.