Three-body expansion and generalized dynamic fragmentation improve the fragment molecular orbital-based molecular dynamics (FMO-MD)

Yuto Komeiji; Yuji Mochizuki; Tatsuya Nakano

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Three-body expansion and generalized dynamic fragmentation improve the fragment molecular orbital-based molecular dynamics (FMO-MD)

机译：三体扩展和广义动态片段化可改善基于片段分子轨道的分子动力学（FMO-MD）

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The fragment molecular orbital-based molecular dynamics (FMO-MD) was improved by the introduction of the three-body extension (FMO3) and the generalized dynamic fragmentation. An analytical energy gradient was derived for FMO3 to realize FMO3-MD. An algorithm of generalized dynamic fragmentation was devised to treat each covalent-bonded and, optionally, hydrogen-bonded atom cluster as a fragment in the course of FMO-MD. The new algorithms were tested by performing conventional MO-MD, FMO2- MD, based on two-body extension, and FMO3-MD simulations of (H2O)32 and H+(H2O)32. FMO2-MD resulted in lower precision, especially in H+(H2O)32, while FMO3-MD gave a precision comparable to that of MO-MD.

机译：通过引入三体延伸（FMO3）和广义动态片段化，改进了基于片段分子轨道的分子动力学（FMO-MD）。导出了FMO3的解析能量梯度，以实现FMO3-MD。设计了一种广义动态碎片化算法，以将每个共价键合的，可选地氢键合的原子簇在FMO-MD过程中视为片段。通过执行基于两体扩展的常规MO-MD，FMO2-MD以及（H2O）32和H +（H2O）32的FMO3-MD仿真，对新算法进行了测试。 FMO2-MD导致精度较低，尤其是在H +（H2O）32中，而FMO3-MD的精度可与MO-MD媲美。

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来源
《Chemical Physics Letters》 |2010年第6期|共7页
作者
Yuto Komeiji; Yuji Mochizuki; Tatsuya Nakano;
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正文语种 eng
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fragmentation; expansion; FMO-MD;

机译：破碎;膨胀;FMO-MD;
入库时间 2022-08-19 12:16:12

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1. Three-body expansion and generalized dynamic fragmentation improve the fragment molecular orbital-based molecular dynamics (FMO-MD) [J] . Yuto Komeiji, Yuji Mochizuki, Tatsuya Nakano Chemical Physics Letters . 2010,第4a6期

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3. Ab Initio Fragment Molecular Orbital-Based Molecular Dynamics (FMO-MD) Simulations of (NH3)(32) Cluster: Effects of Electron Correlation [J] . Ninomiya Moeko, Doi Hideo, Matsumoto Yoshiteru, Bulletin of the Chemical Society of Japan . 2020,第4期

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Three-body expansion and generalized dynamic fragmentation improve the fragment molecular orbital-based molecular dynamics (FMO-MD)

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