6533b82bfe1ef96bd128dfdc
RESEARCH PRODUCT
Corner wetting in the two-dimensional Ising model: Monte Carlo results
Kurt BinderA. De VirgiliisEzequiel V. AlbanoEzequiel V. AlbanoMarcus Müllersubject
PhysicsMagnetizationCondensed matter physicsFerromagnetismTransition temperatureMonte Carlo methodBoundary (topology)General Materials ScienceIsing modelBoundary value problemCondensed Matter PhysicsScalingdescription
Square L ? L (L = 24?128) Ising lattices with nearest neighbour ferromagnetic exchange are considered using free boundary conditions at which boundary magnetic fields ? h are applied, i.e., at the two boundary rows ending at the lower left corner a field +h acts, while at the two boundary rows ending at the upper right corner a field ?h acts. For temperatures T less than the critical temperature Tc of the bulk, this boundary condition leads to the formation of two domains with opposite orientations of the magnetization direction, separated by an interface which for T larger than the filling transition temperature Tf (h) runs from the upper left corner to the lower right corner, while for T T > Tf (h) it scales as w ? L. The distribution P (?) of the interface position ? (measured along the z-direction from the corners) decays exponentially for T T > Tf (h). Furthermore, the Monte Carlo data are compatible with ? (Tf (h) ? T)?1 and a finite size scaling of the total magnetization according to M(L, T) = {(1 ? T/Tf (h))?? L} with ?? = 1. Unlike the findings for critical wetting in the thin film geometry of the Ising model, the Monte Carlo results for corner wetting are in very good agreement with the theoretical predictions.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-01-13 | Journal of Physics: Condensed Matter |