Spin-orbit vibronic coupling in Π 4 states of linear triatomic molecules

Leonid V. Poluyanov; Wolfgang Domcke; Sabyashachi Mishra

doi:10.1063/1.5119774

Spin-orbit vibronic coupling in Π 4 states of linear triatomic molecules

Leonid V. Poluyanov, Wolfgang Domcke, Sabyashachi Mishra

Chair of Theoretical Chemistry

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1 Scopus citations

Abstract

The Renner vibronic-coupling problem in ⁴Π electronic states of linear molecules is analyzed with rigorous and systematic inclusion of spin-orbit (SO) coupling. The 8 × 8 Hamiltonian matrix of a ⁴Π state in the diabatic electronic representation has been constructed by a Taylor expansion in the bending normal mode up to second order. As previously found for ²Π states and ³Π states, SO-induced vibronic-coupling terms that are linear in the bending amplitude exist in addition to the quadratic electrostatic Renner coupling. The effects of the linear and quadratic Renner coupling on the four Kramers-degenerate potential energy surfaces of the ⁴Π state are discussed. The spectroscopic effects of the linear SO-vibronic-coupling mechanism have been analyzed by numerical calculations of vibronic spectra.

Original language	English
Article number	134103
Journal	Journal of Chemical Physics
Volume	151
Issue number	13
DOIs	https://doi.org/10.1063/1.5119774
State	Published - 7 Oct 2019

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title = "Spin-orbit vibronic coupling in Π 4 states of linear triatomic molecules",

abstract = "The Renner vibronic-coupling problem in 4Π electronic states of linear molecules is analyzed with rigorous and systematic inclusion of spin-orbit (SO) coupling. The 8 × 8 Hamiltonian matrix of a 4Π state in the diabatic electronic representation has been constructed by a Taylor expansion in the bending normal mode up to second order. As previously found for 2Π states and 3Π states, SO-induced vibronic-coupling terms that are linear in the bending amplitude exist in addition to the quadratic electrostatic Renner coupling. The effects of the linear and quadratic Renner coupling on the four Kramers-degenerate potential energy surfaces of the 4Π state are discussed. The spectroscopic effects of the linear SO-vibronic-coupling mechanism have been analyzed by numerical calculations of vibronic spectra.",

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AU - Poluyanov, Leonid V.

AU - Domcke, Wolfgang

AU - Mishra, Sabyashachi

PY - 2019/10/7

Y1 - 2019/10/7

N2 - The Renner vibronic-coupling problem in 4Π electronic states of linear molecules is analyzed with rigorous and systematic inclusion of spin-orbit (SO) coupling. The 8 × 8 Hamiltonian matrix of a 4Π state in the diabatic electronic representation has been constructed by a Taylor expansion in the bending normal mode up to second order. As previously found for 2Π states and 3Π states, SO-induced vibronic-coupling terms that are linear in the bending amplitude exist in addition to the quadratic electrostatic Renner coupling. The effects of the linear and quadratic Renner coupling on the four Kramers-degenerate potential energy surfaces of the 4Π state are discussed. The spectroscopic effects of the linear SO-vibronic-coupling mechanism have been analyzed by numerical calculations of vibronic spectra.

AB - The Renner vibronic-coupling problem in 4Π electronic states of linear molecules is analyzed with rigorous and systematic inclusion of spin-orbit (SO) coupling. The 8 × 8 Hamiltonian matrix of a 4Π state in the diabatic electronic representation has been constructed by a Taylor expansion in the bending normal mode up to second order. As previously found for 2Π states and 3Π states, SO-induced vibronic-coupling terms that are linear in the bending amplitude exist in addition to the quadratic electrostatic Renner coupling. The effects of the linear and quadratic Renner coupling on the four Kramers-degenerate potential energy surfaces of the 4Π state are discussed. The spectroscopic effects of the linear SO-vibronic-coupling mechanism have been analyzed by numerical calculations of vibronic spectra.

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VL - 151

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

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ER -

Spin-orbit vibronic coupling in Π 4 states of linear triatomic molecules

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