Insulator-to-metal transition and correlated metallic state of V2O3investigated by optical spectroscopy | Zendy

M. K. Stewart | Zendy; D. Brownstead | Zendy; S. Wang | Zendy; K. West | Zendy; Juan Gabriel Ramírez | Zendy; M. M. Qazilbash | Zendy; Natalia B. Perkins | Zendy; Iván K. Schuller | Zendy; D. N. Basov | Zendy

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Insulator-to-metal transition and correlated metallic state of V2O3investigated by optical spectroscopy

Author(s) -

M. K. Stewart,

D. Brownstead,

S. Wang,

K. West,

Juan Gabriel Ramírez,

M. M. Qazilbash,

Natalia B. Perkins,

Iván K. Schuller,

D. N. Basov

Publication year - 2012

Publication title -

physical review b

Language(s) - English

Resource type - Journals

eISSN - 1538-4489

pISSN - 1098-0121

DOI - 10.1103/physrevb.85.205113

Subject(s) - quasiparticle , metal , metal–insulator transition , materials science , spectral line , physics , condensed matter physics , optical conductivity , mott transition , hubbard model , superconductivity , quantum mechanics , metallurgy

The optical properties of V${}_{2}$O${}_{3}$ thin films are investigated across the insulator-to-metal transition and in the metallic state. The spectral weight transfer observed across the transition, over an energy scale of 5 eV, is consistent with the Mott-Hubbard model for correlated electron systems. In the metallic phase, a strong Drude peak is observed, which exhibits a pronounced temperature dependence related to the transfer of states from the Hubbard bands to the quasiparticle peaks as the temperature is reduced. The analysis of the far-infrared spectra reveals signatures of strong electronic correlations in V${}_{2}$O${}_{3}$. Finally, a comparison to VO${}_{2}$ data is presented.

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