Imaging the nanoscale phase separation in vanadium dioxide thin films at terahertz frequencies

By — H. T. Stinson, A. Sternbach, O Nájera, R. Jing, A. S. Mcleod, T. V. Slusar, A. Mueller, L. Anderegg, H. T. Kim, M. Rozenberg, D. N. Basov
Sep 6, 2018

Vanadium dioxide (VO\(_2\)) is a material that undergoes an insulator–metal transition upon heating above 340 K. It remains debated as to whether this electronic transition is driven by a corresponding structural transition or by strong electron–electron correlations. Here, we use apertureless scattering near-field optical microscopy to compare nanoscale images of the transition in VO\(_2\) thin films acquired at both mid-infrared and terahertz frequencies, using a home-built terahertz near-field microscope. We observe a much more gradual transition when THz frequencies are utilized as a probe, in contrast to the assumptions of a classical first-order phase transition. We discuss these results in light of dynamical mean-field theory calculations of the dimer Hubbard model recently applied to VO\(_2\), which account for a continuous temperature dependence of the optical response of the VO\(_2\) in the insulating state.

Publication: Nat. Commun vol. 9,1 3604. (2018)
arXiv: 1711.05242

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