Nature of the photoinduced metallic state in monoclinic VO2
Creators
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1.
University of Fribourg
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2.
University of Geneva
Description
Nature of the photoinduced metallic state in monoclinic VO2
Abstract
Themetal-insulator transition of VO2, which in equilibrium is associated with a structural phase transition, has been intensively studied for decades. It is challenging to disentangle the role of Mott physics from dimerization effects in the insulating phase. Femtosecond time-resolved experiments showed that optical excitations can induce a transient metallic state in the dimerized phase, which is distinct from the known equilibrium phases. In this letter, we combine nonequilibrium cluster dynamical mean-field theory with realistic first-principles modeling to clarify the nature of this laser-induced metallic state. We show that the doublon-holon production by laser pulses with polarization along the V-V dimers and the subsequent interorbital reshuffling of the photocarriers leads to a population of orbital-mixed states and the filling of the gap. The photoinduced metal state is qualitatively like a hot electronic state in the dimerized structure and does not involve a collapse of the Mott gap.
This data base provides data for all the figures (Fig. 1-5) of the publication
https://doi.org/10.1103/PhysRevB.109.L201101.
ACKNOWLEDGMENTS
This work was supported by the Swiss National Science Foundation via the Research Unit QUAST of Deutsche Foschungsgemeinschaft (FOR5249) (J.C.) and NCCR Marvel (V.C.). The calculations were run on the beo05 cluster at the University of Fribourg, using a code based on NESSi.
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Additional details
Dates
- Available
-
2024-05-02