低能Pt原子团簇沉积过程的分子动力学模拟

利用分子动力学模拟系统研究了低能Pt38,Pt141和Pt266原子团簇与Pt(001)表面的相互作用过程,详细分析了初始原子平均动能为0.1,1.0和10eV的原子团簇的沉积演化过程及其对基体表面形貌的影响.研究表明,初始原子平均动能是描述低能原子团簇的重要参量.当团簇的平均原子动能较低时,团簇对基体表层原子点阵损伤较小,基本属于沉积团簇;随着入射团簇的原子平均动能的增加,团簇对表层原子点阵结构的破坏能力增强,当团簇的原子平均动能增加到10eV时,团簇已经显现出注入特征.低能原子团簇对基体表面形貌的影响 关键词： 分子动力学模拟 低能原子团簇 载能沉积

Molecular dynamics simulations of low-energy Pt cluster deposition

Molecular dynamics simulations have been applied to the investigation of the deposition of low energy Pt 38 , Pt 141 , and Pt 266 clusters on Pt(001) surface. The evolution process of cluster deposition with atomic average kinetic energies ( E a) of 0.1, 1.0 and 10eV and the effects on the substrate surface morphology have been analyzed. Simulation results show that E a is an important parameter to describe behaviours of the clustes. Clusters with low E a cannot damage the surface lattice seriously and the clusters can be considered as a deposition cluster. The power of cluster damaging surface lattice increases with the increase of E a. When E a=10eV, the clusters can implant into the substrate. The effects of low energetic clusters on substrate surface morphology are also determined by E a. The effects of clusters with more atoms, however, are stronger than that with fewer atoms. The mechanisms of the interactions between low energy clusters and substrate surface are also discussed in this paper.