SDSPT2s: SDSPT2 with Selection

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-04 DOI:arxiv-2409.02367
Yibo Lei, Yang Guo, Bingbing Suo, Wenjian Liu
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Abstract

As an approximation to SDSCI [static-dynamic-static (SDS) configuration interaction (CI), a minimal MRCI; Theor. Chem. Acc. 133, 1481 (2014)], SDSPT2 [Mol. Phys. 115, 2696 (2017)] is a CI-like multireference (MR) second-order perturbation theory (PT2) that treats single and multiple roots on an equal footing. This feature permits the use of configuration selection over a large complete active space (CAS) $P$ to end up with a much reduced reference space $\tilde{P}$, which is connected only with a portion ($\tilde{Q}_1$) of the full first-order interacting space $Q$ connected to $P$. The effective interacting $\tilde{Q}$ space can further be truncated by an integral-based cutoff threshold. With marginal loss of accuracy, the selection-truncation procedure, along with an efficient evaluation and storage of internal contraction coefficients, renders SDSPT2s (SDSPT2 with selection) applicable to systems that cannot be handled by the parent CAS-based SDSPT2, as demonstrated by several challenging showcases.
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SDSPT2s:带选择功能的 SDSPT2
作为 SDSCI [静态-动态-静态(SDS)构型相互作用(CI),一种最小的 MRCI;Theor.Chem.Acc. 133, 1481 (2014)],SDSPT2[Mol. Phys. 115, 2696 (2017)]是一种类似于 CI 的多参量(MR)二阶扰动理论(PT2),它平等地对待单根和多根。这一特点允许在一个大的完整有源空间(CAS)$P$上使用构型选择,最终得到一个大大缩小的参考空间$\tilde{P}$,它只与与$P$相连的完整一阶相互作用空间$Q$的一部分($\tilde{Q}_1$)相连。有效的交互$\tilde{Q}$空间可以通过基于积分的截止阈值进一步截断。在精度损失不大的情况下,选择-截断程序以及内部收缩系数的高效评估和存储,使SDSPT2s(带选择的SDSPT2)适用于基于CAS的SDSPT2无法处理的系统,这一点已在多个具有挑战性的展示中得到证明。
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arXiv - PHYS - Chemical Physics
arXiv - PHYS - Chemical Physics
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