Separation of orbital contributions to the optical conductivity of BaVS3
Abstract
The correlation-driven metal-insulator transition (MIT) of BaVS3 was studied by polarized infrared spectroscopy. In the metallic state two types of electrons coexist at the Fermi energy: The quasi 1D metallic transport of A1g electrons is superimposed on the isotropic hopping conduction of localized Eg electrons. The "bad-metal" character and the weak anisotropy are the consequences of the large effective mass meff≈7me and scattering rate ≥160 meV of the quasi-particles in the A1g band. There is a pseudo-gap above TMI=69 K, and in the insulating phase the gap follows the BCS-like temperature dependence of the structural order parameter with ch≈42 meV in the ground state. The MIT is described in terms of a weakly coupled two-band model.
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