Rigid interfaces for lattice models at low temperatures.
From MaRDI portal
Publication:1963551
DOI10.1007/BF01026500zbMath1084.82517OpenAlexW2328738705MaRDI QIDQ1963551
Petr Holický, Miloš Zahradník, Roman Kotecký
Publication date: 2 February 2000
Published in: Journal of Statistical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/bf01026500
surface tensionPirogov-Sinai theoryLattice models at low temperaturesrigid interfacestranslation-noninvariant Gibbs states
Classical equilibrium statistical mechanics (general) (82B05) Interface problems; diffusion-limited aggregation arising in equilibrium statistical mechanics (82B24) Lattice systems (Ising, dimer, Potts, etc.) and systems on graphs arising in equilibrium statistical mechanics (82B20)
Related Items
Crossover finite-size scaling at first-order transitions ⋮ A lattice model for the line tension of a sessile drop ⋮ Extrema of 3D Potts interfaces ⋮ Dobrushin interfaces via reflection positivity ⋮ Finite-size scaling and surface tension from effective one dimensional systems ⋮ Ising model in half-space: a series of phase transitions in low magnetic fields ⋮ A microscopic justification of the Wulff construction ⋮ Regularity properties and pathologies of position-space renormalization-group transformations: scope and limitations of Gibbsian theory ⋮ Surface tension, step free energy, and facets in the equilibrium crystal ⋮ Dobrushin states for classical spin systems with complex interactions ⋮ Surface-induced finite-size effects for first-order phase transitions. ⋮ Interfaces in the Potts model. II: Antonov's rule and rigidity of the order disorder interface
Cites Work
- Unnamed Item
- Non-translation invariant Gibbs states with coexisting phases. I: Existence of sharp interface for Widom-Rowlinson type lattice models in three dimensions
- Non-translation invariant Gibbs states with coexisting phases. II: Cluster properties and surface tension
- Statistical mechanical methods in particle structure analysis of lattice field theories. II. Scalar and surface models
- Cluster expansion for abstract polymer models
