Susceptibility and 89Y nuclear magnetic resonance in Y1−xCaxVO3

Abstract

Temperature‐dependent (10–300 K) field‐cooled (FC) and zero‐field‐cooled (ZFC) susceptibilities, and ⁸⁹Y NMR spectra and relaxation in Y_1−xCa_xVO₃ with 0≤x≤0.9 are reported. In the paramagnetic phase (PA) of YVO₃ and for T≥120 K the susceptibility χ is of antiferromagnetic (AF) type, with no field dependence. Around the Neel temperature T⁽¹⁾_N=113±1 K a field‐dependent ferromagnetic behavior is observed under FC condition. Below T⁽²⁾_N≂77 K (AF phase with AF interplane coupling) strong difference is present between FC and ZFC χ’s. For T→T⁽¹⁾⁺_N the ⁸⁹Y NMR line shows marked broadening and no measurable shift, consistent with a dominant dipolar contribution in the nucleus–electrons interaction. The ⁸⁹Y relaxation rate T⁻¹₁, related to the correlated spin dynamics of V³⁺ S(t), seems to indicate that the interplane ferromagnetic symmetry of the spin fluctuations is quenched in strong fields. The peculiar findings for χ and T₁ could result from a field‐dependent weak ferromagnetism of Dzyaloshinsky–Moriya character. In Y_1−xCa_xVO₃, χ and T⁻¹₁ decrease on increasing x, still preserving the qualitative behavior as for x=0. For x≂0.6 (Ca concentration which drives the transition to the metallic phase) the marks of the PA–AF transition are practically suppressed and behaviors characteristic of correlated metals are observed.