Quasi-One-Dimensional Spin Dynamics in d-Electron Heavy-Fermion Metal Y1-xScxMn2

Abstract

Slow spin fluctuations ( < 1012 s-1) observed by the muon spin relaxation technique in Y1-xScxMn2 exhibits a power law dependence on temperature ( Tα), where the power converges asymptotically to unity (α→ 1) as the system moves away from spin-glass instability with increasing Sc content x. This linear T dependence, which is common to that observed in LiV2O4, is in line with the prediction of the "intersecting Hubbard chains" model for a metallic pyrochlore lattice, suggesting that the geometrical constraints to t2g bands specific to the pyrochlore structure serve as a basis of the d-electron heavy-fermion state.