Dynamics of the diluted Ising antiferromagnet Fe0.31Zn0.69F2

Abstract

The diluted Ising antiferromagnet, Fe0.31Zn0.69F2, has been investigated by dynamic susceptibility measurements in zero and and finite applied dc-fields. In zero field, there is a para- to antiferromagnetic phase transition at TN ≈ 20.0 K, followed by a dramatic slowing down of the dynamics at low temperatures. The latter described by a pure Arrhenius law. The effect of a superposed dc-field on the antiferromagnetic phase transition and on the low-temperature dynamics is investigated, and a comprehensive static and dynamic phase diagram in the H-T plane is derived. In agreement with earlier results on the same system, TN(H) follows a random-exchange Ising model to random-field Ising model crossover scaling for fields H ≤ 1.5 T. A random-field induced glassy dynamics appears for higher values of H, where the antiferromagnetic phase transition is destroyed. The low-temperature dynamics shows striking similarities with the behavior observed in reentrant antiferromagnets.

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