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SCCS−radical: Renner-Teller effect and spin-orbit coupling in the X 2Πu electronic state
Author(s) -
Stanka Jerosimić,
Marko Mitić,
Milan Milovanović
Publication year - 2019
Publication title -
journal of the serbian chemical society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.227
H-Index - 45
eISSN - 1820-7421
pISSN - 0352-5139
DOI - 10.2298/jsc190401033j
Subject(s) - ab initio , excited state , ground state , atomic physics , chemistry , multireference configuration interaction , vibronic coupling , spin–orbit interaction , ab initio quantum chemistry methods , electronic structure , configuration interaction , coupling (piping) , computational chemistry , physics , materials science , molecule , condensed matter physics , organic chemistry , metallurgy
SCCS- was detected by laser-induced fluorescence spectroscopy in 2003 (M. Nakajima, Y. Yoneda, Y. Sumiyoshi, T. Nagata, Y. Endo, J. Chem. Phys. 119 (2003) 7805) and its spectrum was analyzed and the results presented together with ab initio calculations data. Symmetrical stretching vibrations were assigned in both the ground X 2?u and the first excited A 2?g electronic states, but no data about spin?orbit splitting and bending vibrational modes were given. In the present work, the vibronic levels in the ground electronic state of SCCS- were calculated by means of a model developed by Peric and coworkers for the treatment of the Renner?Teller effect in any-atomic linear species in its variational form (M. Mitic, R. Rankovic, M. Milovanovic, S. Jerosimic, M. Peric, Chem. Phys. 464 (2016) 55) using the ab initio multireference configuration interaction calculations for obtaining potential energy curves in the Born?Oppenheimer approximation. Additionally, the spin?orbit splitting in the ground state was investigated taking into account the interaction with the first excited state, and the energies obtained from combined treatment of vibronic and spin?orbit interactions in the ground state are reported. Finally, based on the present results, several assignments of unidentified bands reported by Nakajima et al. are proposed.

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