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The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u)
This study of CaOCa is our third paper in a series on Group 2 alkaline-earth M2O hypermetallic oxides. As with our previous calculations for BeOBe and MgOMg, the ab initio calculations we report here show that CaOCa has a linear 1 Sigma(+)(g) ground electronic state and a very low lying linear (a) over tilde (3)Sigma(+)(u) first excited triplet electronic state. For CaOCa we determine that the singlet-triplet splitting T-e((a) over tilde) = 386 cm(-1). We calculate the three-dimensional potential energy surface, and the electric dipole moment surfaces, of each of the two states using a multireference configuration interaction (MRCISD) approach in combination with internally contracted multireference perturbation theory (RS2C) based on full-valence complete active space self-consistent field (FV-CASSCF) wavefunctions with a cc-pwCVQZ-DK basis set for Ca and a cc-pCVQZ basis set for O. We simulate the infrared absorption spectra of Ca-40 (OCa)-O-16-Ca-40 in each of these electronic state...s in order to aid in its eventual spectroscopic characterization.
Keywords:
CaOCa / Ab initio 3D potential energy surfaces / Rovibronic spectra
Source:
Journal of Molecular Structure, 2012, 1023, 101-107
TY - JOUR
AU - Ostojić, Bojana
AU - Bunker, P. R.
AU - Schwerdtfeger, P.
AU - Gertych, Artur
AU - Jensen, Per
PY - 2012
UR - http://cer.ihtm.bg.ac.rs/handle/123456789/1100
AB - This study of CaOCa is our third paper in a series on Group 2 alkaline-earth M2O hypermetallic oxides. As with our previous calculations for BeOBe and MgOMg, the ab initio calculations we report here show that CaOCa has a linear 1 Sigma(+)(g) ground electronic state and a very low lying linear (a) over tilde (3)Sigma(+)(u) first excited triplet electronic state. For CaOCa we determine that the singlet-triplet splitting T-e((a) over tilde) = 386 cm(-1). We calculate the three-dimensional potential energy surface, and the electric dipole moment surfaces, of each of the two states using a multireference configuration interaction (MRCISD) approach in combination with internally contracted multireference perturbation theory (RS2C) based on full-valence complete active space self-consistent field (FV-CASSCF) wavefunctions with a cc-pwCVQZ-DK basis set for Ca and a cc-pCVQZ basis set for O. We simulate the infrared absorption spectra of Ca-40 (OCa)-O-16-Ca-40 in each of these electronic states in order to aid in its eventual spectroscopic characterization.
PB - Elsevier
T2 - Journal of Molecular Structure
T1 - The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u)
VL - 1023
SP - 101
EP - 107
DO - 10.1016/j.molstruc.2012.03.048
ER -
@article{
author = "Ostojić, Bojana and Bunker, P. R. and Schwerdtfeger, P. and Gertych, Artur and Jensen, Per",
year = "2012",
url = "http://cer.ihtm.bg.ac.rs/handle/123456789/1100",
abstract = "This study of CaOCa is our third paper in a series on Group 2 alkaline-earth M2O hypermetallic oxides. As with our previous calculations for BeOBe and MgOMg, the ab initio calculations we report here show that CaOCa has a linear 1 Sigma(+)(g) ground electronic state and a very low lying linear (a) over tilde (3)Sigma(+)(u) first excited triplet electronic state. For CaOCa we determine that the singlet-triplet splitting T-e((a) over tilde) = 386 cm(-1). We calculate the three-dimensional potential energy surface, and the electric dipole moment surfaces, of each of the two states using a multireference configuration interaction (MRCISD) approach in combination with internally contracted multireference perturbation theory (RS2C) based on full-valence complete active space self-consistent field (FV-CASSCF) wavefunctions with a cc-pwCVQZ-DK basis set for Ca and a cc-pCVQZ basis set for O. We simulate the infrared absorption spectra of Ca-40 (OCa)-O-16-Ca-40 in each of these electronic states in order to aid in its eventual spectroscopic characterization.",
publisher = "Elsevier",
journal = "Journal of Molecular Structure",
title = "The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u)",
volume = "1023",
pages = "101-107",
doi = "10.1016/j.molstruc.2012.03.048"
}
Ostojić, B., Bunker, P. R., Schwerdtfeger, P., Gertych, A.,& Jensen, P. (2012). The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u).
Journal of Molecular Structure
Elsevier., 1023, 101-107.
https://doi.org/10.1016/j.molstruc.2012.03.048
Ostojić B, Bunker PR, Schwerdtfeger P, Gertych A, Jensen P. The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u). Journal of Molecular Structure. 2012;1023:101-107
Ostojić Bojana, Bunker P. R., Schwerdtfeger P., Gertych Artur, Jensen Per, "The predicted infrared spectrum of the hypermetallic molecule CaOCa in its lowest two electronic states (X)over-tilde(1)Sigma(+)(g); and (a)over-tilde(3)Sigma(+)(u)" Journal of Molecular Structure, 1023 (2012):101-107,
https://doi.org/10.1016/j.molstruc.2012.03.048 .
