Theoretical Analysis of the Reduction of Neel Temperature in La2(Cu1-xZn(or Mg)x)O4

Abstract

Using Tyablikov's decoupling approximation, we calculate the initial suppression rate of the Neel temperature, RIS=-limx-> 0 T-1N dTN/dx, in a quasi two-dimensional diluted Heisenberg antiferromagnet with nonmagnetic impurities of concentration x. In order to explain an experimental fact that R(Zn)IS=3.4 of the Zn-substitution is different from R(Mg)IS=3.0 of the Mg-substitution, we propose a model in which impurity substitution reduces the intra-plane exchange couplings surrounding impurities, as well as dilution of spin systems. The decrease of 12% in exchange coupling constants by Zn substitution and decrease of 6% by Mg substitution explain those two experimental results, when an appropriate value of the interplane coupling is used.

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