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引用次数: 0
摘要
结合Langevin分子动力学模拟退火与伪势平方波方法中第一性原理超级单体计算获得的真实量子力学相互作用,研究了以下系统的结构和电子特性:i)纯和混合GenTem (n, m = 0 - 2), Ge3, Te3和Ge3Te3半导体团簇,ii)双金属PbNan (n≤7)团簇。用局部密度近似(LDA)和广义梯度近似(GGA)计算交换相关泛函的结果与已有的实验数据进行了比较。结果表明,与LDA相比,GGA的键长更大,结合能更小,但两种近似的基态基对称性相同。发现了PbNa6的两种同分异构体构型,分别具有C3v和Oh对称。将半导体团簇的偶极矩与最近在室温下的实验结果进行了比较。平均而言,GGA计算得到的偶极矩比LDA计算得到的偶极矩更符合实验结果。
First-Principles Langevin Molecular Dynamics Studies of Metallic and Semiconductor Clusters: GGA versus LDA Results
The combination of Langevin molecular dynamics for simulated annealing with realistic quantum-mechanical interactions obtained from first principles supercell calculations within the pseudo potential plane-wave method are applied to examine the structural and electronic properties of the following systems i) pure and mixed GenTem (n, m = 0 - 2), Ge3, Te3 and Ge3Te3 semiconductor clusters, and ii) bimetallic PbNan (n ≤ 7) clusters. Results using the local density approximation (LDA) and the generalized gradient approximation (GGA) for the exchange correlation functional are compared with available experimental data. It is found that the GGA leads to larger bond lengths and smaller binding energies than the LDA, but both approximations lead to the same group symmetry for the ground state of these clusters. Two isomeric configurations for PbNa6, having C3v and Oh symmetries, respectively, are found. The dipole moments of semiconductor clusters are compared with those estimated from recent experiments at room temperature. The dipole moments from GGA calculations are, on average, in better agreement with experiments than those calculated with the LDA.
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