6533b7dafe1ef96bd126df91

RESEARCH PRODUCT

A new boundary-controlled phase transition: Phase separation in an Ising bi-pyramid with competing surface fields

A. MilchevA. MilchevMarcus MüllerMarcus MüllerKurt Binder

subject

Surface (mathematics)PhysicsPhase transitionQuantitative Biology::Neurons and CognitionCondensed matter physicsQuantum critical pointGeneral Physics and AstronomyIsing modelScalingCritical exponentLandau theoryPyramid (geometry)

description

We study phase coexistence of an Ising ferromagnet in a bi-pyramid geometry with a square basal plane of linear extension 2L + 1. Antisymmetric surface fields act on the pyramid surfaces above and below the basal plane. In the limit L → ∞, the magnetisation stays zero at the bulk critical temperature, but becomes discontinuously non-zero at the cone filling critical temperature associated with a single pyramid. Monte Carlo simulations and scaling considerations show that this transition is described by a Landau theory with size-dependent coefficients that give rise to singular critical amplitudes.

yearjournalcountryeditionlanguage
2005-05-01Europhysics Letters (EPL)
https://doi.org/10.1209/epl/i2005-10009-3