q-AQUA：一种包含四体相互作用的多体耦合簇单双激发微扰三重态（CCSD(T)）水势，展现了从团簇到液相水的量子本质。

q-AQUA: A Many-Body CCSD(T) Water Potential, Including Four-Body Interactions, Demonstrates the Quantum Nature of Water from Clusters to the Liquid Phase.

作者信息

Yu Qi, Qu Chen, Houston Paul L, Conte Riccardo, Nandi Apurba, Bowman Joel M

机构信息

Department of Chemistry, Yale University, New Haven, Connecticut 06520, United States.

Independent Researcher, Toronto, Ontario, Canada.

出版信息

J Phys Chem Lett. 2022 Jun 9;13(22):5068-5074. doi: 10.1021/acs.jpclett.2c00966. Epub 2022 Jun 2.

DOI:10.1021/acs.jpclett.2c00966

PMID:35652912

Abstract

Many model potential energy surfaces (PESs) have been reported for water; however, none are strictly from "first-principles". Here we report such a potential, based on a many-body representation at the CCSD(T) level of theory up to the four-body interaction. The new PES is benchmarked for the isomers of the water hexamer for dissociation energies, harmonic frequencies, and unrestricted diffusion Monte Carlo (DMC) calculations of the zero-point energies of the Prism, Book, and Cage isomers. Dissociation energies of several isomers of the 20-mer agree well with recent benchmark energies. Exploratory DMC calculations on this cluster verify the robustness of the new PES for quantum simulations. The accuracy and speed of the new PES are demonstrated for standard condensed phase properties, i.e., the radial distribution function and the self-diffusion constant. Quantum effects are shown to be substantial for these observables and also needed to bring theory into excellent agreement with experiment.

摘要

关于水，已经报道了许多模型势能面（PES）；然而，没有一个是严格基于“第一性原理”的。在此，我们报告这样一种势能，它基于理论CCSD(T)水平下直至四体相互作用的多体表示。新的PES针对水六聚体的异构体进行了基准测试，用于解离能、谐波频率以及对棱柱体、书本型和笼型异构体零点能的无限制扩散蒙特卡罗（DMC）计算。二十聚体的几种异构体的解离能与最近的基准能量吻合良好。对该团簇的探索性DMC计算验证了新的PES在量子模拟中的稳健性。新的PES的准确性和速度在标准凝聚相性质（即径向分布函数和自扩散常数）方面得到了证明。对于这些可观测量，量子效应被证明是显著的，并且也需要使理论与实验达到极好的一致性。

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q-AQUA：一种包含四体相互作用的多体耦合簇单双激发微扰三重态（CCSD(T)）水势，展现了从团簇到液相水的量子本质。

q-AQUA: A Many-Body CCSD(T) Water Potential, Including Four-Body Interactions, Demonstrates the Quantum Nature of Water from Clusters to the Liquid Phase.

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