Condensed Matter (Apr 2023)

Investigating the Intrinsic Anisotropy of VO<sub>2</sub>(101) Thin Films Using Linearly Polarized Resonant Photoemission Spectroscopy

  • Alessandro D’Elia,
  • Vincent Polewczyk,
  • Aleksandr Yu. Petrov,
  • Liang Li,
  • Chongwen Zou,
  • Javad Rezvani,
  • Augusto Marcelli

DOI
https://doi.org/10.3390/condmat8020040
Journal volume & issue
Vol. 8, no. 2
p. 40

Abstract

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VO2 is one of the most studied vanadium oxides because it undergoes a reversible metal-insulator transition (MIT) upon heating with a critical temperature of around 340 K. One of the most overlooked aspects of VO2 is the band’s anisotropy in the metallic phase when the Fermi level is crossed by two bands: π* and d||. They are oriented perpendicularly in one respect to the other, hence generating anisotropy. One of the parameters tuning MIT properties is the unbalance of the electron population of π* and d|| bands that arise from their different energy position with respect to the Fermi level. In systems with reduced dimensionality, the electron population disproportion is different with respect to the bulk leading to a different anisotropy. Investigating such a system with a band-selective spectroscopic tool is mandatory. In this manuscript, we show the results of the investigation of a single crystalline 8 nm VO2/TiO2(101) film. We report on the effectiveness of linearly polarized resonant photoemission (ResPES) as a band-selective technique probing the intrinsic anisotropy of VO2.

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