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How optical excitation controls the structure and properties of vanadium dioxide.

Proceedings of the National Academy of Sciences of the United States of America (2018-12-28)
Martin R Otto, Laurent P René de Cotret, David A Valverde-Chavez, Kunal L Tiwari, Nicolas Émond, Mohamed Chaker, David G Cooke, Bradley J Siwick
ZUSAMMENFASSUNG

We combine ultrafast electron diffraction and time-resolved terahertz spectroscopy measurements to link structure and electronic transport properties during the photoinduced insulator-metal transitions in vanadium dioxide. We determine the structure of the metastable monoclinic metal phase, which exhibits antiferroelectric charge order arising from a thermally activated, orbital-selective phase transition in the electron system. The relative contribution of the photoinduced monoclinic and rutile metals to the time-dependent and pump-fluence-dependent multiphase character of the film is established, as is the respective impact of these two distinct phase transitions on the observed changes in terahertz conductivity. Our results represent an important example of how light can control the properties of strongly correlated materials and demonstrate that multimodal experiments are essential when seeking a detailed connection between ultrafast changes in optical-electronic properties and lattice structure.