On the heavy-fermion behavior of the pyrochlore transition-metal oxide LiV2O4
Abstract
Motivated by the heavy fermion Fermi liquid (HFFL) features observed at low-T in the pyrochlore LiV2O4, we consider a material-specific model that includes aspects of the local quantum chemistry, the geometrically frustrated lattice structure, and strong correlations in a single approach. In particular, we show how geometrical frustration (GF) gives rise to a crossover scale, T*<<J, the intersite (AF) exchange, below which the metallic system shows HFFL features. Our scenario is a specific realization of the importance of GF effects in driving HFFL behavior in LiV2O4, and provides a natural understanding of various puzzling features observed experimentally.
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