Spin Dilution in Frustrated Two-Dimensional s=1/2 Antiferromagnets on a Square Lattice
Abstract
7Li and 29Si NMR, μSR and magnetization measurements in Li2V1-xOTixSiO4, for 0 ≤ x ≤ 0.2, are presented. The x=0 compound is a prototype of frustrated two-dimensional Heisenberg antiferromagnet on a square-lattice with competing nearest (J1) and next-nearest (J2) neighbour exchange interactions. Ti4+ (S=0) for V4+ (S=1/2) substitution yields the spin dilution of the antiferromagnetic layers. The analysis of the magnetization and of the nuclear spin-lattice relaxation rate shows that spin dilution not only reduces the spin-stiffness by a factor (1-x)2, but also causes the decrease of the effective ratio J2(x)/J1(x). Moreover, the sublattice magnetization curves derived from zero-field μSR measurements in the collinear phase point out that, at variance with non-frustrated two-dimensional Heisenberg antiferromagnets, spin dilution affects the low-temperature staggered magnetization only to a minor extent. This observation is supported also by the x dependence of the collinear ordering temperature. The results obtained for the Ti doped samples are discussed in the light of the results previously obtained in the pure x=0 compound and in non-frustrated two-dimensional Heisenberg antiferromagnets with spin-dilution.
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