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Auteurs principaux: Mallo, María, Gómez-Carrasco, Susana, Gómez, Sandra
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2506.03811
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author Mallo, María
Gómez-Carrasco, Susana
Gómez, Sandra
author_facet Mallo, María
Gómez-Carrasco, Susana
Gómez, Sandra
contents We explore the trans-cis photoisomerisation process in a representative retinal protonated Schiff base known as trans-PSB3, employing the quantum dynamics method direct dynamics variational multiconfigurational gaussian -- DD-vMCG -- in full dimensionality, i.e., 36 degrees of freedom on potential energy surfaces computed on-the-fly using the SA(2)-CAS(6,6)SCF electronic structure method with the 6-31G basis set. Although the toy molecule has been extensively studied using trajectory methods such as Tully Surface Hopping and Ab Initio Multiple Spawning, the on-the-fly quantum dynamics method DD-vMCG shows a trans-cis isomerisation hundreds of femtoseconds slower using the same electronic structure method, which can be explained in terms of the accesibility to the conical intersection connecting the ground and the excited state.
format Preprint
id arxiv_https___arxiv_org_abs_2506_03811
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Delayed photoisomerisation of the trans-PSB3 retinal toy model using on-the-fly quantum dynamics
Mallo, María
Gómez-Carrasco, Susana
Gómez, Sandra
Chemical Physics
We explore the trans-cis photoisomerisation process in a representative retinal protonated Schiff base known as trans-PSB3, employing the quantum dynamics method direct dynamics variational multiconfigurational gaussian -- DD-vMCG -- in full dimensionality, i.e., 36 degrees of freedom on potential energy surfaces computed on-the-fly using the SA(2)-CAS(6,6)SCF electronic structure method with the 6-31G basis set. Although the toy molecule has been extensively studied using trajectory methods such as Tully Surface Hopping and Ab Initio Multiple Spawning, the on-the-fly quantum dynamics method DD-vMCG shows a trans-cis isomerisation hundreds of femtoseconds slower using the same electronic structure method, which can be explained in terms of the accesibility to the conical intersection connecting the ground and the excited state.
title Delayed photoisomerisation of the trans-PSB3 retinal toy model using on-the-fly quantum dynamics
topic Chemical Physics
url https://arxiv.org/abs/2506.03811