线性化绝热连接近似的无自旋表述及其与二阶 N 电子价态扰动理论的比较

IF 3.4 3区 化学 Q2 Chemistry Faraday Discussions Pub Date : 2024-04-03 DOI:10.1039/D4FD00054D
Yang Guo and Katarzyna Pernal
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引用次数: 0

摘要

绝热连接(AC)近似及其线性化变体 AC0 被引入作为获取动态相关能的方法。当使用完整活动空间自洽场(CASSCF)波函数作为参考时,AC0 近似被认为是最有效的多参考扰动理论之一。它只涉及使用 1$^{st}$- 和 2$^{nd}$- 阶还原密度矩阵。然而,一些数值结果表明,AC0 预测的激发能不如二阶 N 电子价态扰动理论(NEVPT2)预测的激发能可靠。在本研究中,我们开发了基于戴尔哈密顿的 AC0 无自旋公式,并对 AC0 和 NEVPT2 方法进行了详细比较。我们展示了相关能表达式中两种方法共有的成分以及 AC0 或 NEVPT2 独有的成分。我们研究了 NEVPT2 独有项的作用,并探讨了在这方面提高 AC0 性能的可能性。
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Spinless formulation of linearized adiabatic connection approximation and its comparison with the second order N-electron valence state perturbation theory

The adiabatic connection (AC) approximation, along with its linearized variant AC0, was introduced as a method of obtaining dynamic correlation energy. When using a complete active space self-consistent field (CASSCF) wave function as a reference, the AC0 approximation is considered one of the most efficient multi-reference perturbation theories. It only involves the use of 1st- and 2nd-order reduced density matrices. However, some numerical results have indicated that the excitation energies predicted by AC0 are not as reliable as those from the second-order N-electron valence state perturbation theory (NEVPT2). In this study, we develop a spinless formulation of AC0 based on the Dyall Hamiltonian and provide a detailed comparison between AC0 and NEVPT2 approaches. We demonstrate the components within the correlation energy expressions that are common to both methods and those unique to either AC0 or NEVPT2. We investigate the role of the terms exclusive to NEVPT2 and explore the possibility of enhancing AC0’s performance in this regard.

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来源期刊
Faraday Discussions
Faraday Discussions CHEMISTRY, PHYSICAL-
CiteScore
4.90
自引率
0.00%
发文量
259
审稿时长
2.8 months
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
期刊最新文献
Back cover List of participants Poster list Correction: Challenges with relativistic GW calculations in solids and molecules List of participants
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