Saeed Nasiri, Sergiy Bubin, Monika Stanke, Ludwik Adamowicz
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引用次数: 0
摘要
在不假设玻恩-奥本海默(Born-Oppenheimer,BO)近似的情况下,在变分法框架内研究了氢化锂分子的低洼无旋转态。通过用数千个全粒子显式相关高斯展开所考虑状态的波函数,获得了六粒子(两个原子核和四个电子)薛定谔方程的高精度解。利用与非线性参数相关的解析能量梯度,对每个状态的基函数进行独立优化。计算中获得的非BO 波函数用于在扰动理论框架内评估前沿相对论和量子电动力学能量修正。根据对核核相关函数的分析,讨论了分子在基态和激发态的几何结构。这项研究获得的非BO 能量和结构参数与目前最精确的 BO 结果进行了比较。
Molecular Structure Theory without the Born-Oppenheimer Approximation: Rotationless Vibrational States of LiH.
Low-lying rotationless states of the lithium hydride molecule are studied in the framework of the variational method without assuming the Born-Oppenheimer (BO) approximation. Highly accurate solutions to the six-particle (two nuclei and four electrons) Schrödinger equation are obtained by means of expanding the wave functions of the considered states in terms of many thousands of all-particle explicitly correlated Gausssians. The basis functions are optimized independently for each state using the analytic energy gradient with respect to the nonlinear parameters. The non-BO wave functions obtained in the calculations are used to evaluate the leading-order relativistic and quantum electrodynamics energy corrections in the framework of the perturbation theory. The geometric structure of the molecule in the ground and excited states is discussed based on the analysis of the nucleus-nucleus correlation functions. The non-BO energies and structural parameters obtained of this work are compared with the most accurate BO results currently available.
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