HO(HO)n = 0-5 团簇的基准电子结构计算,以及现有 1,2,3 体势能面的新 4 体修正的测试。
Benchmark Electronic Structure Calculations for HO(HO) , n = 0-5, Clusters and Tests of an Existing 1,2,3-Body Potential Energy Surface with a New 4-Body Correction.
机构信息
Department of Chemistry , University of Washington , Seattle , Washington 98195 , United States.
Department of Chemistry and Cherry L. Emerson Center for Scientific Computation , Emory University , Atlanta , Georgia 30322 , United States.
出版信息
J Chem Theory Comput. 2018 Sep 11;14(9):4553-4566. doi: 10.1021/acs.jctc.8b00598. Epub 2018 Aug 28.
We report extensive benchmark CCSD(T) Complete Basis Set (CBS) estimates of the binding energies, structures, and harmonic frequencies of HO(HO) clusters, n = 0-5, including all currently known low-lying energy isomers. These are used to test a previously reported many-body (up to 3-body interactions) CCSD(T)-based potential energy surface (PES) for the hydrated proton. A new 4-body term for the hydronium-water-water-water interactions is introduced. This term is aimed at refining the relative energies of isomers of the HO(HO) , n = 4, 5 clusters. The test results of the revised PES against the benchmark demonstrate the high accuracy of the revised PES.
我们报告了广泛的基准 CCSD(T)完全基组 (CBS) 对 HO(HO) 团簇,n = 0-5 的结合能、结构和简正频率的估计,包括所有目前已知的低能异构体。这些用于测试之前报道的基于多体(高达 3 体相互作用)CCSD(T)的质子水合势能面 (PES)。引入了一个新的 4 体项用于描述水合氢离子-水分子-水分子-水分子的相互作用。这个项的目的是细化 HO(HO) ,n = 4,5 团簇异构体的相对能量。修订后的 PES 与基准的测试结果表明了修订后的 PES 的高精度。
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