Finite-Size Scaling Critical Behavior of Randomly Pinned Spin-Density Waves

Abstract

We have performed Monte Carlo studies of the 3D XY model with random uniaxial anisotropy, which is a model for randomly pinned spin-density waves. We study L × L × L simple cubic lattices, using L values in the range 16 to 64, and with random anisotropy strengths of D / 2 J = 1, 2, 3, 6 and ∞. There is a well-defined finite temperature critical point, Tc, for each these values of D / 2 J. We present results for the angle-averaged magnetic structure factor, S (k) at Tc for L = 64. We also use finite-size scaling analysis to study scaling functions for the critical behavior of the specific heat, the magnetization and the longitudinal magnetic susceptibility. Good data collapse of the scaling functions over a wide range of T is seen for D / 2 J = 6 and ∞. For our finite values of D / 2 J the scaled magnetization function increases with L below Tc, and appears to approach an L-independent limit for large L. This suggests that the system is ferromagnetic below Tc.