Absence of Dipole Glass Transition for Randomly Dilute Classical Ising Dipoles
Abstract
Dilute dipolar systems in three dimensions are expected to undergo a spin glass transition as the temperature decreases. Contrary to this, we find from Wang-Landau Monte Carlo simulations that at low concentrations x, dipoles randomly placed on a cubic lattice with dipolar interactions do not undergo a phase transition. We find that in the thermodynamic limit the ``glass'' transition temperature Tg goes to zero as 1/N where N is the number of dipoles. The entropy per particle at low temperatures is larger for lower concentrations (x=4.5%) than for higher concentrations (x=20%).
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