Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3
Eisfeld W, Viel A (2017)
JOURNAL OF CHEMICAL PHYSICS 146(3): 34303.
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Autor*in
Eisfeld, WolfgangUniBi 
;
Viel, Alexandra
;
Viel, AlexandraEinrichtung
Abstract / Bemerkung
The E-2 '' state of NO3, a prototype for the Jahn-Teller effect, has been an enigma and a challenge for a long time for both experiment and theory. We present a detailed theoretical study of the vibronic quantum dynamics in this electronic state, uncovering the effects of tunnelling, geometric phase, and symmetry. To this end, 45 vibronic levels of NO3 in the E-2 '' state are determined accurately and analyzed thoroughly. The computation is based on a high quality diabatic potential representation of the two-sheeted surface of the E-2 '' state developed by us [W. Eisfeld et al., J. Chem. Phys. 140, 224109 (2014)] and on the multi-configuration time dependent Hartree approach. The vibrational eigenstates of the NO3- anion are determined and analyzed as well to gain a deeper understanding of the symmetry properties of such D-3h symmetric systems. To this end, 61 eigenstates of the NO3- anion ground state are computed using the single sheeted potential surface of the (1)A(1) state published in the same reference quoted above. The assignments of both the vibrational and vibronic levels are discussed. A simple model is proposed to rationalize the computed NO3 spectrum strongly influenced by the Jahn-Teller couplings, the associated geometric phase effect, and the tunnelling. Comparison with the available spectroscopic data is also presented. Published by AIP Publishing.
Erscheinungsjahr
2017
Zeitschriftentitel
JOURNAL OF CHEMICAL PHYSICS
Band
146
Ausgabe
3
Art.-Nr.
34303
ISSN
0021-9606
eISSN
1089-7690
Page URI
https://pub.uni-bielefeld.de/record/2910375
Zitieren
Eisfeld W, Viel A. Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3. JOURNAL OF CHEMICAL PHYSICS. 2017;146(3): 34303.
Eisfeld, W., & Viel, A. (2017). Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3. JOURNAL OF CHEMICAL PHYSICS, 146(3), 34303. doi:10.1063/1.4973983
Eisfeld, Wolfgang, and Viel, Alexandra. 2017. “Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3”. JOURNAL OF CHEMICAL PHYSICS 146 (3): 34303.
Eisfeld, W., and Viel, A. (2017). Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3. JOURNAL OF CHEMICAL PHYSICS 146:34303.
Eisfeld, W., & Viel, A., 2017. Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3. JOURNAL OF CHEMICAL PHYSICS, 146(3): 34303.
W. Eisfeld and A. Viel, “Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3”, JOURNAL OF CHEMICAL PHYSICS, vol. 146, 2017, : 34303.
Eisfeld, W., Viel, A.: Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3. JOURNAL OF CHEMICAL PHYSICS. 146, : 34303 (2017).
Eisfeld, Wolfgang, and Viel, Alexandra. “Vibronic eigenstates and the geometric phase effect in the E-2 '' state of NO3”. JOURNAL OF CHEMICAL PHYSICS 146.3 (2017): 34303.
Daten bereitgestellt von European Bioinformatics Institute (EBI)
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