Longstanding conventional wisdom dictates that the widely used Many-Body Expansion (MBE) converges rapidly by the four-body term when applied to large chemical systems. We have found, however, that this is not true for calculations using many common, moderate-sized basis sets such as 6-311++G** and aug-cc-pVDZ, Energy calculations performed on water clusters using these basis sets showed a deceptively small error when the MBE was truncated at the three-body level, while inclusion of four-and five-body contributions drastically increased the error. Moreover, the error per monomer increases with system size, showing that the MBE is unsuitable to apply to large chemical systems when using these basis sets. Through a systematic study, we identified the cause of the poor MBE convergence to be a many-body basis set superposition effect exacerbated by diffuse functions. This was verified by analysis of MO coefficients and the behavior of the MBE with increasing monomer—monomer separation. We also found poor convergence of the MBE when applied to valence-bonded systems, which has implications for molecular fragmentation methods. The findings in this work suggest that calculations involving the MBE must be performed using the full-cluster basis set, using basis sets without diffuse functions, or using a basis set of at least aug-cc-pVTZ quality.
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机译:长期以来的传统观点认为,当应用于大型化学系统时,广泛使用的多体膨胀(MBE)可以通过四体项快速收敛。但是,我们发现,对于使用许多常见的中等大小的基础集(例如6-311 ++ G **和aug-cc-pVDZ)的计算,这是不正确的,使用这些基础集对水簇进行的能量计算表明当MBE在三体水平被截断时,这是一个看似很小的错误,而包含四,五体贡献则大大增加了该错误。此外,每个单体的误差随系统尺寸的增加而增加,这表明使用这些基础集时,MBE不适合应用于大型化学系统。通过系统的研究,我们确定MBE收敛不佳的原因是扩散功能加剧的多体基础集叠加效应。这通过分析MO系数和MBE随单体-单体分离增加的行为得到了验证。我们还发现当应用于价键体系时,MBE的收敛性较差,这对分子片段化方法具有重要意义。这项工作中的发现表明,涉及MBE的计算必须使用全集群基础集,不使用扩散函数的基础集或至少使用aug-cc-pVTZ质量的基础集来进行。
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