The ionization energies of dust-forming metal oxide clusters
Abstract
Stellar dust grains are predominantly composed of mineralic, anorganic material forming in the circumstellar envelopes of oxygen-rich AGB stars. However, the initial stage of the dust synthesis, or its nucleation, is not well understood. In particular, the chemical nature of the nucleating species, represented by molecular clusters, is uncertain. We investigate the vertical and adiabatic ionization energies of four different metal-oxide clusters by means of density functional theory. They include clusters of magnesia (MgO)n, silicon monoxide (SiO)n, alumina (Al2O3)n, and titania (TiO2)n with stoichiometric sizes of n=1−8. The magnesia, alumina and titania clusters show relatively little variation in their ionization energies with respect to the cluster size n, ranging from 7.1−8.2 eV for (MgO)n, 8.9−10.0 eV for (Al2O3)n, and 9.3−10.5 eV for (TiO2)n. In contrast, the (SiO)n ionization energies decrease with size n, starting from 11.5 eV for n=1, and decreasing to 6.6 eV for n=8. Therefore, we set constraints on the stability limit for neutral metal-oxide clusters to persist ionization through radiation or high temperatures and for the nucleation to proceed via neutral-neutral reactions
Citation
Gobrecht , D , Sindel , J P , Lecoq Molinos , H & Decin , L 2021 , ' The ionization energies of dust-forming metal oxide clusters ' , Universe , vol. 7 , no. 7 , 243 . https://doi.org/10.3390/universe7070243
Publication
Universe
Status
Peer reviewed
ISSN
2218-1997Type
Journal article
Description
Funding:D.G. and L.D. acknowledge funding by the ERC consolidator grant number 646758. J.-P. S. and H. L.-M. acknowledge the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 860470.Collections
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