Effective Field Theory for Layered Quantum Antiferromagnets with Non-Magnetic Impurities

Abstract

We propose an effective two-dimensional quantum non-linear sigma model combined with classical percolation theory to study the magnetic properties of site diluted layered quantum antiferromagnets like La2Cu1-xMxO4 (M=Zn, Mg). We calculate the staggered magnetization at zero temperature, Ms(x), the magnetic correlation length, (x,T), the NMR relaxation rate, 1/T1(x,T), and the N\'eel temperature, TN(x), in the renormalized classical regime. Due to quantum fluctuations we find a quantum critical point (QCP) at xc ≈ 0.305 at lower doping than the two-dimensional percolation threshold xp ≈ 0.41. We compare our results with the available experimental data.

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