Dilution Effects on Ordering in the S=1/2 Heisenberg Antiferromagnet on the Square Lattice

Abstract

The influence of dilution with non--magnetic impurities on the order in the ground state of the S=1/2 Heisenberg antiferromagnet is investigated by Quantum Monte Carlo simulations. Data of the spin correlation functions and thermodynamic properties for system sizes up to L× L=16×16 and for impurity concentrations up to δ=37.5\% are presented. In the low doping regime the correlation length shows similiar dependence on temperature as in the pure case. The staggered magnetization Nz2(δ) in the ground state which is the order parameter of the present model is estimated by extrapolating data at low temperatures. Impurity concentration dependence of Nz2(δ) is presented. Nz2(δ) decreases monotonically with impurity concentration and becomes very small around δc 0.35 which is much smaller than the classical percolation threshold.

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