A general method for the development of diabatic spin-orbit models for multi-electron systems
Fritsch F, Weike T, Eisfeld W (2022)
Journal of Chemical Physics 156(5): 054115.
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Einrichtung
Abstract / Bemerkung
Spin-orbit (SO) coupling can have significant effects on the quantum dynamics of molecular systems, but it is still difficult to account for accurately. One promising way to do this is to devise a diabatic SO model combined with the molecular potential energy. Few such models have been developed utilizing spatial and time-reversal symmetry. These models are tedious to derive and are specific for the molecular symmetry and included spin states. Here, we present a relatively simple approach to construct such models for various spin states with S12 from a basic one-electron SO case with S=12. The multi-electron fine structure states are expressed in terms of Slater determinants of single-electron spin functions (spinors). The properties of all single-electron matrix elements over the SO operator are derived and expressed as Taylor expansions in terms of symmetry-adapted nuclear coordinates. The SO matrix elements for the multi-electron case are then obtained from these single-electron matrix elements using the Slater-Condon rules. This yields the full SO matrix and symmetry properties of the multi-electron matrix elements in a straightforward way. The matrix elements are expressed as symmetry-adapted polynomials up to arbitrary order. This approach is demonstrated first for an abstract model of two electrons in a set of p orbitals in a C3v symmetric environment and then applied to set up a diabatic model for the photodissociation of methyl iodide (CH3I). The high accuracy of this new approach is demonstrated in comparison to an available analytic SO model for CH3I.
Erscheinungsjahr
2022
Zeitschriftentitel
Journal of Chemical Physics
Band
156
Ausgabe
5
Art.-Nr.
054115
eISSN
1089-7690
Page URI
https://pub.uni-bielefeld.de/record/2961209
Zitieren
Fritsch F, Weike T, Eisfeld W. A general method for the development of diabatic spin-orbit models for multi-electron systems. Journal of Chemical Physics. 2022;156(5): 054115.
Fritsch, F., Weike, T., & Eisfeld, W. (2022). A general method for the development of diabatic spin-orbit models for multi-electron systems. Journal of Chemical Physics, 156(5), 054115. https://doi.org/10.1063/5.0078908
Fritsch, Fabian, Weike, Thomas, and Eisfeld, Wolfgang. 2022. “A general method for the development of diabatic spin-orbit models for multi-electron systems”. Journal of Chemical Physics 156 (5): 054115.
Fritsch, F., Weike, T., and Eisfeld, W. (2022). A general method for the development of diabatic spin-orbit models for multi-electron systems. Journal of Chemical Physics 156:054115.
Fritsch, F., Weike, T., & Eisfeld, W., 2022. A general method for the development of diabatic spin-orbit models for multi-electron systems. Journal of Chemical Physics, 156(5): 054115.
F. Fritsch, T. Weike, and W. Eisfeld, “A general method for the development of diabatic spin-orbit models for multi-electron systems”, Journal of Chemical Physics, vol. 156, 2022, : 054115.
Fritsch, F., Weike, T., Eisfeld, W.: A general method for the development of diabatic spin-orbit models for multi-electron systems. Journal of Chemical Physics. 156, : 054115 (2022).
Fritsch, Fabian, Weike, Thomas, and Eisfeld, Wolfgang. “A general method for the development of diabatic spin-orbit models for multi-electron systems”. Journal of Chemical Physics 156.5 (2022): 054115.
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