Synthesis, Characterization and Magnetic Susceptibility of the Heavy Fermion Transition Metal Oxide LiV2O4

Abstract

The preparative method, characterization and magnetic susceptibility measurements versus temperature T of the heavy fermion transition metal oxide LiV2O4 are reported in detail. The intrinsic (T) shows a nearly T-independent behavior below ~ 30 K with a shallow broad maximum at about 16 K, whereas Curie-Weiss-like behavior is observed above 50-100 K. Field-cooled and zero-field-cooled magnetization M measurements in applied magnetic fields H = 10 to 100 G from 1.8 to 50 K showed no evidence for spin-glass ordering. Crystalline electric field theory for an assumed cubic V point group symmetry is found insufficient to describe the observed temperature variation of the effective magnetic moment. The Kondo and Coqblin-Schrieffer models do not describe the magnitude and T dependence of with realistic parameters. In the high T range, fits of (T) by the predictions of high temperature series expansion calculations provide estimates of the V-V antiferromagnetic exchange coupling constant J/kB ~ 20 K, g-factor g ~ 2 and the T-independent susceptibility. Other possible models to describe the (T) are discussed. The paramagnetic impurities in the samples were characterized using isothermal M(H) measurements with 0 < H <= 5.5 Tesla at 2 to 6 K. These impurities are inferred to have spin Simp ~ 3/2 to 4, gimp ~ 2 and molar concentrations of 0.01 to 0.8 %, depending on the sample.

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