Correlations and N\'eel Order of Randomly Diluted Quantum Spin Ladders

Abstract

We present a Monte Carlo study of the correlation length of randomly diluted antiferromagnetic Heisenberg ladders, composed of two spin--1/2 chains. For weak and intermediate inter--chain couplings, J/J ≤ 1, we find an enhancement of correlations that is strongest for a fraction z* ≈ J/(8J) of dilutants. We are able to access the experimentally relevant low--temperature regime, T/J ≈ 1/500, and find that the recently inferred N\'eel temperature of Sr(Cu1-zZnz)2O3 corresponds to a curve of constant correlation length ≈ 18 of the single diluted ladder with J/J 1/2. The primary reason for the N\'eel ordering is argued to be a strong enhancement of two--dimensional correlations due to a Cu--Sr--Cu exchange coupling of ≈ 10 meV in the stacking direction of the ladders.

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