Evidence for a Ru4+ Kondo Lattice in LaCu3Ru4O12

Abstract

Rare d-electron derived heavy-fermion properties of the solid-solution series LaCu3RuxTi4-xO12 were studied for 1 ≤ x ≤ 4 by resistivity, susceptibility, specific-heat measurements, and magnetic-resonance techniques. The pure ruthenate (x = 4) is a heavy-fermion metal characterized by a resistivity proportional to T2 at low temperatures T. The coherent Kondo lattice formed by the localized Ru 4d electrons is screened by the conduction electrons leading to strongly enhanced effective electron masses. By increasing titanium substitution the Kondo lattice becomes diluted resulting in single-ion Kondo properties like in the paradigm 4f-based heavy-fermion compound CexLa1-xCu2.05Si2 [M. Ocko et al., Phys. Rev. B 64, 195106 (2001)]. In LaCu3RuxTi4-xO12 the heavy-fermion behavior finally breaks down on crossing the metal-to-insulator transition close to x = 2.