https://doi.org/10.1140/epjb/e2006-00123-0
Effect of weak disorder on the ground state of uniaxial dipolar spin systems in the upper critical dimension
1
School of Physics M013, University of Western Australia, 35 Stirling Hwy, Crawley, WA, 6009, Australia
2
IFW Dresden, P.O. Box 270116, D-01171 Dresden, Germany
Corresponding author: a avk@pks.mpg.de
Received:
30
September
2005
Revised:
2
December
2005
Published online:
12
April
2006
Extensive Monte Carlo simulations are used to investigate the stability of the ferromagnetic ground state in three-dimensional systems of Ising dipoles with added quenched disorder. These systems model the collective ferromagnetic order observed in various systems with dipolar long-range interactions. The uniaxial dipolar spins are arranged on a face-centred cubic lattice with periodic boundary conditions. Finite-size scaling relations for the pure dipolar ferromagnetic system are derived by a renormalisation group calculation. These functions include logarithmic corrections to the expected mean field behaviour since the system is in its upper critical dimension. Scaled data confirm the validity of the finite-size scaling description and results are compared with subsequent analysis of weakly disordered systems. A disorder-temperature phase diagram displays the preservation of the ferromagnetic ground state with the addition of small amounts of disorder, suggesting the irrelevance of weak disorder in these systems.
PACS: 75.10.Hk – Classical spin models / 75.10.Nr – Spin-glass and other random models / 05.50.+q – Lattice theory and statistics (Ising, Potts, etc.) / 64.60.Fr – Equilibrium properties near critical points, critical exponents
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2006
