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Geometric Upper Critical Dimensions of the Ising Model

Sheng Fang, Zongzheng Zhou, Youjin Deng

2022Chinese Physics Letters15 citationsDOIOpen Access PDF

Abstract

The upper critical dimension of the Ising model is known to be d c = 4, above which critical behavior is regarded to be trivial. We hereby argue from extensive simulations that, in the random-cluster representation, the Ising model simultaneously exhibits two upper critical dimensions at ( d c = 4, d p = 6), and critical clusters for d ≥ d p , except the largest one, are governed by exponents from percolation universality. We predict a rich variety of geometric properties and then provide strong evidence in dimensions from 4 to 7 and on complete graphs. Our findings significantly advance the understanding of the Ising model, which is a fundamental system in many branches of physics.

Topics & Concepts

Ising modelUniversality (dynamical systems)Critical dimensionStatistical physicsPercolation (cognitive psychology)Critical exponentCritical phenomenaMathematicsRandom graphDimension (graph theory)Renormalization groupRepresentation (politics)PhysicsCombinatoricsMathematical physicsScalingPhase transitionGeometryGraphCondensed matter physicsBiologyLawPolitical scienceNeurosciencePoliticsTheoretical and Computational PhysicsComplex Network Analysis TechniquesStochastic processes and statistical mechanics