Journal ArticleDOI
Mixed quantum-classical dynamics in the adiabatic representation to simulate molecules driven by strong laser pulses.
Juan José Bajo,Jesús González-Vázquez,Jesús González-Vázquez,Ignacio R. Sola,Jesus Santamaria,Martin Richter,Philipp Marquetand,Leticia González +7 more
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TLDR
In this regime, it is shown that the molecular dynamics can be simulated quite accurately by a semiclassical surface-hopping scheme formulated in the adiabatic representation, showing how the choice of the representation is crucial in reproducing the results obtained by exact quantum dynamical calculations.Abstract:
The dynamics of molecules under strong laser pulses is characterized by large Stark effects that modify and reshape the electronic potentials, known as laser-induced potentials (LIPs). If the time scale of the interaction is slow enough that the nuclear positions can adapt to these externally driven changes, the dynamics proceeds by adiabatic following, where the nuclei gain very little kinetic energy during the process. In this regime we show that the molecular dynamics can be simulated quite accurately by a semiclassical surface-hopping scheme formulated in the adiabatic representation. The nuclear motion is then influenced by the gradients of the laser-modified potentials, and nonadiabatic couplings are seen as transitions between the LIPs. As an example, we simulate the process of adiabatic passage by light induced potentials in Na2 using the surface-hopping technique both in the diabatic representation based on molecular potentials and in the adiabatic representation based on LIPs, showing how the ch...read more
Citations
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Ab Initio Nonadiabatic Quantum Molecular Dynamics.
TL;DR: A review of methods that can describe nonadiabatic dynamics in molecules, with emphasis on those that are able to simultaneously address the quantum mechanics of both electrons and nuclei.
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Recent Advances and Perspectives on Nonadiabatic Mixed Quantum-Classical Dynamics.
TL;DR: This review focuses on the NA-MQC dynamics methods and programs developed in the last 10 years, and stresses the relations between approaches and their domains of application.
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Nonadiabatic dynamics: The SHARC approach
TL;DR: The key step of the SHARC approach consists of a diagonalization of the Hamiltonian including these couplings, such that the nuclear dynamics is carried out on potential energy surfaces including the effects of the couplings—this is critical in any applications considering, for example, transition metal complexes or strong laser fields.
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A general method to describe intersystem crossing dynamics in trajectory surface hopping
TL;DR: In this paper, a general trajectory surface hopping methodology, termed SHARC, which is able to include nonadiabatic and spin-orbit couplings in excited state dynamics simulations, is explained in detail.
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Machine Learning for Electronically Excited States of Molecules.
TL;DR: In this article, a review of machine learning for excited states of molecules is presented, focusing on not only how machine learning is employed to speed up such excited-state simulations but also how this branch of artificial intelligence can be used to advance this exciting research field in all its aspects.
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