In this paper we propose a tight-binding molecular dynamics with parameters fitted to first-principles calculations on the smaller clusters and with an environment correction, to be a powerful technique for studying large transition/noble metal clusters. In particular, the structure and stability of $Cu_n$ clusters for $n=3-55$ are studied by using this technique. The results for small $Cu_n$ clusters ($n=3-9$) show good agreement with {\it ab initio} calculations and available experimental results. In the size range $10\le n \le 55$ most of the clusters adopt icosahedral structure which can be derived from the 13-atom icosahedron, the polyicosahedral 19-, 23-, and 26-atom clusters and the 55-atom icosahedron, by adding or removing atoms. However, a local geometrical change from icosahedral to decahedral structure is observed for $n = 40-44$ and return to the icosahedral growth pattern is found at $n=45$ which continues. Electronic "magic numbers" ($n=2$, 8, 20, 34, 40) in this regime are correctly reproduced. Due to electron pairing in HOMOs, even-odd alternation is found. A sudden loss of even-odd alternation in second difference of cluster binding energy, HOMO-LUMO gap energy and ionization potential is observed in the region $n\sim40$ due to structural change there. Interplay between electronic and geometrical structure is found.
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机译:在本文中,我们提出了一个紧密结合的分子动力学,其参数适合于较小簇上的第一性原理计算,并且经过环境校正,是研究大型过渡/贵金属簇的有力技术。特别是,使用此技术研究了$ n = 3-55 $的$ Cu_n $簇的结构和稳定性。小型$ Cu_n $簇($ n = 3-9 $)的结果与{\ it ab initio}计算和可用的实验结果显示出很好的一致性。在大小范围$ 10 \ le n \ le 55 $中,大多数团簇都采用二十面体结构,该结构可源自13原子的二十面体,多二十面体的19、23和26原子团以及55原子的二十面体,通过添加或删除原子。然而,观察到从二十面体到十面体结构的局部几何变化为$ n = 40-44 $,并且发现返回到二十面体生长模式为$ n = 45 $并持续。电子“魔术数字”($ n = 2 $,8、20、34、40)可以正确地复制。由于HOMO中的电子配对,发现了奇偶交替。由于区域的结构变化,在区域$ n \ sim40 $中观察到了簇结合能,HOMO-LUMO间隙能和电离电势的第二差的奇数交替突然损失。发现电子结构和几何结构之间的相互作用。
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