Pastorczak Ewa, Pernal Katarzyna
Institute of Physics , Lodz University of Technology , ul. Wolczanska 219 , 90-924 Lodz , Poland.
J Phys Chem Lett. 2018 Sep 20;9(18):5534-5538. doi: 10.1021/acs.jpclett.8b02391. Epub 2018 Sep 11.
It is demonstrated how the recently proposed multireference adiabatic-connection (AC) approximation for electron correlation energy ( Pernal , K. Electron Correlation from the Adiabatic Connection for Multireference Wave Functions . Phys. Rev. Lett. 2018 , 120 , 013001 ) can be extended to predicting correlation energy in excited states of molecules. It is the first successful application of the AC approach to computing excited-states energies of molecules using a complete active space (CAS) wave function as a reference. The unique feature of the AC-CAS approach with respect to popular methods such as CASPT2 and NEVPT2 is that it requires only one- and two-particle reduced density matrices, making it possible to efficiently treat large spaces of active electrons. Application of the simpler variant of AC, the AC0, which is based on the first-order expansion of the AC integrand at the uncorrelated system limit, to excited states yields excitation energies with accuracy rivaling that of the NEVPT2 method but at greatly reduced computational cost.
文中展示了最近提出的用于电子相关能的多参考绝热连接(AC)近似(佩纳尔,K.《多参考波函数绝热连接的电子相关》。《物理评论快报》2018年,第120卷,第013001期)如何能够扩展到预测分子激发态的相关能。这是AC方法首次成功应用于使用完全活性空间(CAS)波函数作为参考来计算分子激发态能量。与诸如CASPT2和NEVPT2等常用方法相比,AC - CAS方法的独特之处在于它仅需要单粒子和双粒子约化密度矩阵,从而能够有效地处理大的活性电子空间。将基于AC被积函数在非相关系统极限处的一阶展开的更简单变体AC0应用于激发态,得到的激发能精度可与NEVPT2方法相媲美,但计算成本大幅降低。
