Transfer of Spectral Weight and Symmetry across the Metal-Insulator Transition in VO<sub>2</sub>
- Koethe, T.
- Hu, Z.
- Haverkort, M.
- Schüßler-Langeheine, C.
- Venturini, F.
- Brookes, N.
- Tjernberg, O.
- Reichelt, W.
- Hsieh, H.
- Lin, H.
- Chen, C.
- Tjeng, L.
Publication date
September 2006
DOI Publisher
American Physical Society (APS)Abstract
We present a detailed study of the valence and conduction bands of VO2 across the metal-insulator transition using bulk-sensitive photoelectron and O K x-ray absorption spectroscopies. We observe a giant transfer of spectral weight with distinct features that require an explanation which goes beyond the Peierls transition model as well as the standard single-band Hubbard model. Analysis of the symmetry and energies of the bands reveals the decisive role of the V 3d orbital degrees of freedom. Comparison to recent realistic many body calculations shows that much of the k dependence of the self-energy correction can be cast within a dimer model
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