# Dyson models under renormalization and in weak fields

**Authors:** R. Bissacot, E.O. Endo, A.C.D. van Enter, B. Kimura, A. Le Ny, W.M., Ruszel

arXiv: 1702.02887 · 2017-02-10

## TL;DR

This paper explores how long-range Dyson spin models in one dimension behave under renormalization and external fields, revealing non-Gibbsian measures and phase transition persistence depending on decay parameters.

## Contribution

It demonstrates that decimation leads to non-Gibbsian measures in Dyson models and analyzes the critical decay of external fields affecting phase transitions.

## Key findings

- Decimation causes Dyson models to become non-Gibbsian.
- Phase transition persistence depends on the decay rate of external fields.
- Comparison of decay parameters reveals analogies with short-range models.

## Abstract

We consider one-dimensional long-range spin models (usually called Dyson models), consisting of Ising ferromagnets with slowly decaying long-range pair potentials of the form $\frac{1}{|i-j|^{\alpha}}$ mainly focusing on the range of slow decays $1 < \alpha \leq 2$. We describe two recent results, one about renormalization and one about the effect of external fields at low temperature. The first result states that a decimated long-range Gibbs measure in one dimension becomes non-Gibbsian, in the same vein as comparable results in higher dimensions for short-range models. The second result addresses the behaviour of such models under inhomogeneous fields, in particular external fields which decay to zero polynomially as $(|i|+1)^{- \gamma}$. We study how the critical decay power of the field, $\gamma$, for which the phase transition persists and the decay power $\alpha$ of the Dyson model compare, extending recent results for short-range models on lattices and on trees. We also briefly point out some analogies between these results.

## Full text

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## References

52 references — full list in the complete paper: https://tomesphere.com/paper/1702.02887/full.md

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Source: https://tomesphere.com/paper/1702.02887