重新审视准经典轨迹计算中初始条件的绝热切换：应用于CH4

Revisiting Adiabatic Switching for Initial Conditions in Quasi-Classical Trajectory Calculations: Application to CH4.

作者信息

Qu Chen, Bowman Joel M

机构信息

Department of Chemistry and Cherry L. Emerson Center for Scientific Computation, Emory University , Atlanta, Georgia 30322, United States.

出版信息

J Phys Chem A. 2016 Jul 14;120(27):4988-93. doi: 10.1021/acs.jpca.5b12701. Epub 2016 Feb 23.

DOI:10.1021/acs.jpca.5b12701

PMID:26881845

Abstract

Semiclassical quantization of vibrational energies, using adiabatic switching (AS), is applied to CH4 using a recent ab initio potential energy surface, for which exact quantum calculations of vibrational energies are available. Details of the present calculations, which employ a harmonic normal-mode zeroth-order Hamiltonian, emphasize the importance of transforming to the Eckart frame during the propagation of the adiabatically switched Hamiltonian. The AS energies for the zero-point, and fundamental excitations of two modes are in good agreement with the quantum ones. The use of AS in the context of quasi-classical trajectory calculations is revisited, following previous work reported in 1995, which did not recommend the procedure. We come to a different conclusion here.

摘要

利用绝热开关（AS）对振动能量进行半经典量子化，并应用于甲烷（CH4），使用的是最近的从头算势能面，对于该势能面，振动能量的精确量子计算是可行的。本计算采用谐波简正模零阶哈密顿量，其细节强调了在绝热开关哈密顿量的传播过程中转换到埃卡特坐标系的重要性。零点能以及两个模式的基频激发的AS能量与量子能量吻合良好。继1995年报道的先前工作（该工作不推荐该程序）之后，重新审视了在准经典轨迹计算中AS的使用。我们在此得出了不同的结论。

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重新审视准经典轨迹计算中初始条件的绝热切换：应用于CH4

Revisiting Adiabatic Switching for Initial Conditions in Quasi-Classical Trajectory Calculations: Application to CH4.

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