6533b852fe1ef96bd12ab7d9
RESEARCH PRODUCT
Phase transitions in nanosystems caused by interface motion: the Ising bipyramid with competing surface fields.
Kurt BinderAndrey MilchevMarcus Müllersubject
PhysicsMagnetizationPhase transitionStatistical Mechanics (cond-mat.stat-mech)Condensed matter physicsFOS: Physical sciencesIsing modelCritical exponentPower lawSpontaneous magnetizationCondensed Matter - Statistical MechanicsLandau theoryPyramid (geometry)description
The phase behavior of a large but finite Ising ferromagnet in the presence of competing surface magnetic fields +/- H_s is studied by Monte Carlo simulations and by phenomenological theory. Specifically, the geometry of a double pyramid of height 2L is considered, such that the surface field is positive on the four upper triangular surfaces of the bi-pyramid and negative on the lower ones. It is shown that the total spontaneous magnetization vanishes (for L -> infinity) at the temperature T_f(H), related to the "filling transition" of a semi-infinite pyramid, which can be well below the critical temperature of the bulk. The discontinuous vanishing of the magnetization is accompanied by a susceptibility that diverges with a Curie-Weiss power law, when the transition is approached from either side. A Landau theory with size-dependent critical amplitudes is proposed to explain these observations, and confirmed by finite size scaling analysis of the simulation results. The extension of these results to other nanosystems (gas-liquid systems, binary mixtures, etc.) is briefly discussed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-09-16 | Physical review. E, Statistical, nonlinear, and soft matter physics |