Parameterization of a linear vibronic coupling model with multiconfigurational electronic structure methods to study the quantum dynamics of photoexcited pyrene

Parameterization of a linear vibronic coupling model with multiconfigurational electronic structure methods to study the quantum dynamics of photoexcited pyrene

With this work, we present a protocol for the parameterization of a Linear Vibronic Coupling (LVC) Hamiltonian for quantum dynamics using highly accurate multiconfigurational electronic structure methods such as RASPT2/RASSCF, combined with a maximum-overlap diabatization technique. Our approach is...

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Veröffentlicht in:The Journal of chemical physics 2021-03, Vol.154 (10), p.104106-104106
Hauptverfasser: Aleotti, Flavia, Aranda, Daniel, Yaghoubi Jouybari, Martha, Garavelli, Marco, Nenov, Artur, Santoro, Fabrizio
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Coupling
Coupling (molecular)
Dynamic structural analysis
Dynamics
Electronic structure
Excitation
Multilayers
Parameterization
Quantum mechanics
Quantum theory
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container_end_page 104106
container_issue 10
container_start_page 104106
container_title The Journal of chemical physics
container_volume 154
creator Aleotti, Flavia
Aranda, Daniel
Yaghoubi Jouybari, Martha
Garavelli, Marco
Nenov, Artur
Santoro, Fabrizio
description With this work, we present a protocol for the parameterization of a Linear Vibronic Coupling (LVC) Hamiltonian for quantum dynamics using highly accurate multiconfigurational electronic structure methods such as RASPT2/RASSCF, combined with a maximum-overlap diabatization technique. Our approach is fully portable and can be applied to many medium-size rigid molecules whose excited state dynamics requires a quantum description. We present our model and discuss the details of the electronic structure calculations needed for the parameterization, analyzing critical situations that could arise in the case of strongly interacting excited states. The protocol was applied to the simulation of the excited state dynamics of the pyrene molecule, starting from either the first or the second bright state (S2 or S5). The LVC model was benchmarked against state-of-the-art quantum mechanical calculations with optimizations and energy scans and turned out to be very accurate. The dynamics simulations, performed including all active normal coordinates with the multilayer multiconfigurational time-dependent Hartree method, show good agreement with the available experimental data, endorsing prediction of the excited state mechanism, especially for S5, whose ultrafast deactivation mechanism was not yet clearly understood.
doi_str_mv 10.1063/5.0044693
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subjects Coupling
Coupling (molecular)
Dynamic structural analysis
Dynamics
Electronic structure
Excitation
Multilayers
Parameterization
Quantum mechanics
Quantum theory
title Parameterization of a linear vibronic coupling model with multiconfigurational electronic structure methods to study the quantum dynamics of photoexcited pyrene
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