Crossover to non-Fermi-liquid spin dynamics in cuprates

Abstract

The antiferromagnetic spin correlation function S Q, the staggered spin susceptibility Q and the energy scale ωFL=S Q/ Q are studied numerically within the t-J model and the Hubbard model, as relevant to cuprates. It is shown that ωFL, related to the onset of the non-Fermi-liquid spin response at T>ωFL, is very low in the regime below the 'optimum' hole doping ch < ch* 0.16, while it shows a steep increase in the overdoped regime. A quantitative analysis of NMR spin-spin relaxation-rate 1/T2G for various cuprates reveals a similar behavior, indicating on a sharp, but continuous, crossover between a Fermi-liquid and a non-Fermi-liquid behavior as a function of doping.

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