Photoemission evidence for a Mott-Hubbard metal-insulator transition in VO2

Abstract

The temperature (T) dependent metal-insulator transition (MIT) in VO2 is investigated using bulk sensitive hard x-ray ( 8 keV) valence band, core level, and V 2p-3d resonant photoemission spectroscopy (PES). The valence band and core level spectra are compared with full-multiplet cluster model calculations including a coherent screening channel. Across the MIT, V 3d spectral weight transfer from the coherent (d1 C final) states at Fermi level to the incoherent (d0+d1 L final) states, corresponding to the lower Hubbard band, lead to gap-formation. The spectral shape changes in V 1s and V 2p core levels as well as the valence band are nicely reproduced from a cluster model calculations, providing electronic structure parameters. Resonant-PES finds that the d1L states resonate across the V 2p-3d threshold in addition to the d0 and d1 C states. The results support a Mott-Hubbard transition picture for the first order MIT in VO2.

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