Band-width control in a perovskite-type 3d1 correlated metal Ca1-xSrxVO3. I. Evolution of the electronic properties and effective mass

Abstract

Single crystals of the perovskite-type 3d1 metallic alloy system Ca1-xSrxVO3 were synthesized in order to investigate metallic properties near the Mott transition. The substitution of a Ca2+ ion for a Sr2+ ion reduces the band width W due to a buckling of the V-O-V bond angle from 180 for SrVO3 to 160 for CaVO3. Thus, the value of W can be systematically controlled without changing the number of electrons making Ca1-xSrxVO3: one of the most ideal systems for studying band-width effects. The Sommerfeld-Wilson's ratio (2), the Kadowaki-Woods ratio (in the same region as heavy Fermion systems), and a large T2 term in the electric resistivity, even at 300 K, substantiate a large electron correlation in this system, though the effective mass, obtained by thermodynamic and magnetic measurements, shows only a systematic but moderate increase in going from SrVO3 to CaVO3, in contrast to the critical enhancement expected from the Brinkmann-Rice picture. It is proposed that the metallic properties observed in this system near the Mott transition can be explained by considering the effect of a non-local electron correlation.

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