The ground electronic state of magnesium oxide is
perturbed by low-lying electronic states. Its rovibrational
spectrum can be fit quite well up to v = 2 using
effective spectroscopic parameters. The presence of these
low-lying electronic states and their perturbation of the
ground electronic state affect the partition function.
The underestimation may be still quite small at 300 K,
but will increase at higher temperatures. An update with
treatment of the perturbations may be provided once
the molecule will have been detected unambiguously.
The purpose of the present fit is to provide data
for MgO, 25MgO, and 26MgO in
low vibrational states.
An isotopic independent fit was performed by
(1) H. S. P. Müller, 2022, unpublished.
Transition frequencies were taken from
(2) T. Törring and J. Hoeft,
1986, Chem. Phys. Lett. 126, 477.
Additional millimeter and lower submillimeter data
(excluding the v = 3 data) were taken
from
(3) E. Kagi, and K. Kawaguchi,
2006, J. Mol. Struct. 795, 179.
Also used were rovibrational transitions
from
(4) S. Civiš, H. G. Hedderich, and C. E. Blom,
1991, Chem. Phys. Lett. 176, 489.
The parameter set is similar to the one in (2).
The ground state transition frequencies should be reliable
throughout, the ones of the excited state should be viewed
with some caution.
The dipole moment was taken from a quantum-chemical
calculation in
(5) H. Thümmel, R. Klotz, and S. D. Peyerimhoff,
1989, Chem. Phys. 129, 417.
Isotopic changes and possibly also rotational changes
in the dipole moment can be neglected, vibrational changes
possibly not.
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