基于压缩多态对密度泛函理论的最低能量锥形交叉点

Minimum-Energy Conical Intersections by Compressed Multistate Pair-Density Functional Theory.

作者信息

Calio Paul B, Hermes Matthew R, Bao Jie J, Galván Ignacio Fdez, Lindh Roland, Truhlar Donald G, Gagliardi Laura

机构信息

Department of Chemistry, Pritzker School of Molecular Engineering, James Franck Institute, Chicago Center for Theoretical Chemistry, The University of Chicago, Chicago, Illinois 60637-1403, United States.

Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute, University of Minnesota, Minneapolis, Minnesota 55455-0431, United States.

出版信息

J Phys Chem A. 2024 Mar 7;128(9):1698-1706. doi: 10.1021/acs.jpca.3c07048. Epub 2024 Feb 26.

DOI:10.1021/acs.jpca.3c07048

PMID:38407944

Abstract

Compressed multistate pair-density functional theory (CMS-PDFT) is a multistate version of multiconfiguration pair-density functional theory that can capture the correct topology of coupled potential energy surfaces (PESs) around conical intersections. In this work, we develop interstate coupling vectors (ISCs) for CMS-PDFT in the and electronic structure packages. Yet, the main focus of this work is using ISCs to calculate minimum-energy conical intersections (MECIs) by CMS-PDFT. This is performed using the projected constrained optimization method in , which uses ISCs to restrain the iterations to the conical intersection seam. We optimize the / MECIs for ethylene, butadiene, and benzene and show that CMS-PDFT gives smooth PESs in the vicinities of the MECIs. Furthermore, the CMS-PDFT MECIs are in good agreement with the MECI calculated by the more expensive XMS-CASPT2 method.

摘要

压缩多态对密度泛函理论（CMS-PDFT）是多组态对密度泛函理论的多态版本，它能够捕捉锥形交叉点周围耦合势能面（PES）的正确拓扑结构。在这项工作中，我们在和电子结构软件包中为CMS-PDFT开发了态间耦合矢量（ISC）。然而，这项工作的主要重点是使用ISC通过CMS-PDFT计算最小能量锥形交叉点（MECI）。这是在中使用投影约束优化方法进行的，该方法使用ISC将迭代限制在锥形交叉点缝上。我们优化了乙烯、丁二烯和苯的 / MECI，并表明CMS-PDFT在MECI附近给出了平滑的PES。此外，CMS-PDFT MECI与通过更昂贵的XMS-CASPT2方法计算的MECI高度一致。

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基于压缩多态对密度泛函理论的最低能量锥形交叉点

Minimum-Energy Conical Intersections by Compressed Multistate Pair-Density Functional Theory.

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