6533b862fe1ef96bd12c627b
RESEARCH PRODUCT
Monte Carlo studies of anisotropic surface tension and interfacial roughening in the three-dimensional Ising model.
David P. LandauK. K. MonKurt BinderS. Wanslebensubject
Surface tensionPhysicssymbols.namesakeCapillary waveCondensed matter physicsMonte Carlo methodsymbolsLattice (group)Ising modelCubic crystal systemHamiltonian (quantum mechanics)Scalingdescription
Extensive Monte Carlo simulations of the simple cubic Ising model with nearest-neighbor ferromagnetic interactions with a tilted interface are presented for a wide range of lattice size L, temperature T, and tilt angles \ensuremath{\theta}. The anisotropic interfacial tension is studied in detail. From the small-angle data, we obtain the step free energy density ${f}_{S}$(T,L). Finite-size scaling of the step free energy density is discussed and used to probe the predicted temperature dependence of the correlation length near and above the roughening transition. The square-root temperature dependence predicted by solid-on-solid model calculations is exhibited. Finite-size scaling implies that the step free energy varies as 1/L in the rough phase, and thus the applicability of a capillary wave Hamiltonian to describe interfaces of lattice models needs careful discussion.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1989-04-01 | Physical review. B, Condensed matter |