On the computations of interatomic Coulombic decay widths with R-matrix method

Sisourat, Nicolas; Engin, Selma; Gorfinkiel, Jimena D.; Kazandjian, Sévan; Kolorenč, Přemysl; Miteva, Tsveta

doi:10.1063/1.4989538

Cited by 12 publications

(9 citation statements)

References 41 publications

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“…The calculations on Ne + -He and Ne + -He 2 in this work were performed using the same parameters as those reported in [15]: we used the cc-pVDZ basis set and the Hartree-Fock (HF) orbitals optimized for the neutral clusters using the MOLPRO package [16,17]. The Rmatrix radius was fixed at 13 a.u.…”

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confidence: 99%

Interatomic Coulombic electron capture from first principles

et al. 2018

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confidence: 99%

Interatomic Coulombic electron capture from first principles

et al. 2018

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“…Alternatively, one could use adapted quantum chemistry methods that directly provide information about the widths. 14,58,59 As one nal potential application of the methodology, we put forward the idea that it could be employed to incorporate the possibility of radiative decay into nonadiabatic dynamics of excited states. Although there are available computational codes for mixed quantum-classical dynamics that place internal conversion and intersystem crossing on an equal footing, 60 we are not aware of implementations that also account for decay by uorescence.…”

Section: Discussionmentioning

confidence: 99%

Nonadiabatic dynamics in multidimensional complex potential energy surfaces

Kossoski

Barbatti

2020

Chem. Sci.

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“…Alterna-tively, one could use adapted quantum chemistry methods that directly provide information about the widths. 14,58,59 As one final potential application of the methodology, we put forward the idea that it could be employed to incorporate the possibility of radiative decay into nonadiabatic dynamics of excited states. Although there are available computational codes for mixed quantum-classical dynamics that place internal conversion and intersystem crossing on an equal footing, 60 we are not aware of implementations that also account for decay by fluorescence.…”

Section: Discussionmentioning

confidence: 99%

Nonadiabatic Dynamics in Multidimensional Complex Potential Energy Surfaces

Kossoski¹,

Barbatti

2020

Preprint

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<p>Despite the continuous development of theoretical methodologies for describing nonadiabatic dynamics of molecular systems, there is a lack of approaches for processes where the norm of the wave function is not conserved, i.e., when an imaginary potential accounts for some irreversible decaying mechanism. Current approaches rely on building potential energy surfaces of reduced dimensionality, which is not optimal for more involving and realistic multidimensional problems. Here, we present a novel methodology for describing the dynamics of complex-valued molecular Hamiltonians, which is a generalisation of the trajectory surface hopping method. As a first application, the complex surface fewest switches surface hopping (CS-FSSH) method was employed to survey the relaxation mechanisms of the shape resonant anions of iodoethene. We have provided the first detailed and dynamical picture of the π*/σ* mechanism of dissociative electron attachment in halogenated unsaturated compounds, which is believed to underlie electron-induced reactions of several molecules of interest. Electron capture into the π* orbital promotes C=C stretching and out-of-plane vibrations, followed by charge transfer from the double bond into the σ* orbital at the C-I bond, and, finally, release of the iodine ion, all within only 15 fs. On-the-fly dynamics simulations of a vast class of processes can be envisioned with the CS-FSSH methodology, including autoionisation from transient anions, core-ionised and superexcited states, Auger and interatomic Coulombic decay, and time-dependent luminescence.</p>

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On the computations of interatomic Coulombic decay widths with R-matrix method

Cited by 12 publications

References 41 publications

Interatomic Coulombic electron capture from first principles

Interatomic Coulombic electron capture from first principles

Nonadiabatic dynamics in multidimensional complex potential energy surfaces

Nonadiabatic Dynamics in Multidimensional Complex Potential Energy Surfaces

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