Universality Diagram of Phase Transitions in Long-range Statistical Systems

Abstract

The percolation, Ising, and O(n) models constitute fundamental systems in statistical and condensed matter physics. For short-range-interacting cases, the nature of their phase transitions is well established by renormalization-group theory. However, the universality of the transitions in these models remains elusive when algebraically decaying long-range interactions 1/rd+σ are introduced, where d is the dimensionality and σ is the decay exponent. Building upon insights from L\'evy flight, i.e., long-range simple random walk, we propose three universality diagrams in the (d,σ) plane for the percolation model, the O(n) model, and the Fortuin-Kasteleyn Ising model, respectively. The conjectured universality diagrams are consistent with recent high-precision numerical studies and rigorous mathematical results, offering a unified perspective on critical phenomena in systems with long-range interactions.

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