A detailed study of resonant photoemission at Ti L2,3 edges of insulating rutile TiO2-x thin film is presented. Pure TiO2 resonating structures, defect-related resonances, resonant Raman-Auger and normal LVV Auger emissions are tracked, including an unpredicted two-hole correlated satellite below the non-bonding part of the valence band. The analysis of excitation dynamics unambiguously addresses the origin of these features and, in particular, the extent of charge transfer effects on the Ti-O bonding in the valence band of rutile, disclosing further applications to the more general case of, formally, d0 oxides.
Drera, G., Sangaletti, L., Bondino, F., Malvestuto, M., Malavasi, L., Diaz Fernandez, Y., et al. (2013). Labeling interacting configurations through an analysis of excitation dynamics in a resonant photoemission experiment: The case of rutile TiO 2. JOURNAL OF PHYSICS. CONDENSED MATTER, 25(7) [10.1088/0953-8984/25/7/075502].
Labeling interacting configurations through an analysis of excitation dynamics in a resonant photoemission experiment: The case of rutile TiO 2
Drera, G;
2013
Abstract
A detailed study of resonant photoemission at Ti L2,3 edges of insulating rutile TiO2-x thin film is presented. Pure TiO2 resonating structures, defect-related resonances, resonant Raman-Auger and normal LVV Auger emissions are tracked, including an unpredicted two-hole correlated satellite below the non-bonding part of the valence band. The analysis of excitation dynamics unambiguously addresses the origin of these features and, in particular, the extent of charge transfer effects on the Ti-O bonding in the valence band of rutile, disclosing further applications to the more general case of, formally, d0 oxides.
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