2019
DOI: 10.1002/wcms.1417
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Different flavors of nonadiabatic molecular dynamics

Abstract: The Born‐Oppenheimer approximation constitutes a cornerstone of our understanding of molecules and their reactivity, partly because it introduces a somewhat simplified representation of the molecular wavefunction. However, when a molecule absorbs light containing enough energy to trigger an electronic transition, the simplistic nature of the molecular wavefunction offered by the Born‐Oppenheimer approximation breaks down as a result of the now non‐negligible coupling between nuclear and electronic motion, ofte… Show more

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Cited by 98 publications
(107 citation statements)
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“…As in Section 3, in the following we will not systematically list all available methods suitable for non-adiabatic dynamics simulations,but we focus on afew selected examples of what we consider popular approaches and emerging techniques.F or am ore comprehensive overview on the topic, we refer the reader to several excellent recent reviews. [139][140][141][142]…”
Section: Minireviewsmentioning
confidence: 99%
“…As in Section 3, in the following we will not systematically list all available methods suitable for non-adiabatic dynamics simulations,but we focus on afew selected examples of what we consider popular approaches and emerging techniques.F or am ore comprehensive overview on the topic, we refer the reader to several excellent recent reviews. [139][140][141][142]…”
Section: Minireviewsmentioning
confidence: 99%
“…and photophysics of molecules in their full dimensionality, and often imply to choose a representation for the molecular wavefunction. 3 Most methods for nonadiabatic dynamics start by expressing the molecular wavefunction in the Born-Huang representation, leading to a picture of photochemistry where a nuclear wavefunction evolves on a given potential energy surface and can transfer nuclear amplitude in regions of strong nonadiabaticity to a different electronic state. Within this framework, the most accurate methods represent the electronic structure quantities and the nuclear wavefunctions on a grid and solve the nuclear time-dependent Schrödinger equations in a numerically exact manner.…”
Section: Introductionmentioning
confidence: 99%
“…Einen ausführlicheren Überblick über das Thema kann der interessierte Leser in mehreren exzellenten Übersichtsartikeln der letzten Jahre finden. [139][140][141][142]…”
Section: Die Herausforderungen Der Kerndynamikunclassified