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Hauptverfasser: Jin, Jiamin, Qu, Zexing, Liu, Chungen
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2505.11130
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author Jin, Jiamin
Qu, Zexing
Liu, Chungen
author_facet Jin, Jiamin
Qu, Zexing
Liu, Chungen
contents This work presents a novel methodology termed Direct Diabatic States Construction (DDSC), which integrates fragment wavefunctions into an anti-symmetric wavefunction for the entire system. Using a fragment-localized state-consistent molecular orbital (FL-SC MO), this approach enables direct construction of all diabatic states at the same root. Each diabatic state is formed as a linear combination of a set of diabatic configurations. The validity and effectiveness of DDSC have been demonstrated through its application to the LiH molecule. The results show that this method is suitable for constructing both valence and Rydberg diabatic states. One of the key advantages of DDSC is its ability to directly compute diabatic couplings, which can be converted to non-adiabatic coupling (NAC) vectors along the reaction coordinate. The DDSC method efficiently builds the diabatic potential energy matrix (DPEM), especially for systems with clear fragment partitions and weak inter-fragment interactions, such as charge transfer reactions.
format Preprint
id arxiv_https___arxiv_org_abs_2505_11130
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Direct Diabatic States Construction Method with Consistent Orbitals for Valence and Rydberg States
Jin, Jiamin
Qu, Zexing
Liu, Chungen
Chemical Physics
This work presents a novel methodology termed Direct Diabatic States Construction (DDSC), which integrates fragment wavefunctions into an anti-symmetric wavefunction for the entire system. Using a fragment-localized state-consistent molecular orbital (FL-SC MO), this approach enables direct construction of all diabatic states at the same root. Each diabatic state is formed as a linear combination of a set of diabatic configurations. The validity and effectiveness of DDSC have been demonstrated through its application to the LiH molecule. The results show that this method is suitable for constructing both valence and Rydberg diabatic states. One of the key advantages of DDSC is its ability to directly compute diabatic couplings, which can be converted to non-adiabatic coupling (NAC) vectors along the reaction coordinate. The DDSC method efficiently builds the diabatic potential energy matrix (DPEM), especially for systems with clear fragment partitions and weak inter-fragment interactions, such as charge transfer reactions.
title A Direct Diabatic States Construction Method with Consistent Orbitals for Valence and Rydberg States
topic Chemical Physics
url https://arxiv.org/abs/2505.11130