# One dimensional phase-ordering in the Ising model with space decaying   interactions

**Authors:** Federico Corberi, Eugenio Lippiello, Paolo Politi

arXiv: 1902.06142 · 2019-08-06

## TL;DR

This paper investigates the phase-ordering kinetics of the one-dimensional Ising model with space-decaying long-range interactions, revealing diverse growth regimes and the impact of conservation laws through numerical and analytical methods.

## Contribution

It provides a detailed analysis of how long-range interactions affect phase ordering and growth laws in the 1D Ising model, including new regimes and effects of conservation laws.

## Key findings

- Asymptotic growth follows algebraic laws similar to nearest-neighbor models.
- Multiple preasymptotic regimes with distinct growth behaviors are identified.
- Conservation laws significantly slow down dynamics with extended-range interactions.

## Abstract

The study of the phase ordering kinetics of the ferromagnetic one-dimensional Ising model dates back to 1963 for non conserved order parameter (NCOP) and to 1991 for conserved order parameter (COP). The case of long range interactions $J(r)$ has been widely studied at equilibrium but their effect on relaxation is a much less investigated field. Here we make a detailed numerical and analytical study of both cases, NCOP and COP. Many results are valid for any positive, decreasing coupling $J(r)$, but we focus specifically on the exponential case, $J_{exp}(r)=e^{-r/R}$ with varying $R>0$, and on the integrable power law case, $J_{pow}(r) =1/r^{1+\sigma}$ with $\sigma > 0$. We find that the {\it asymptotic} growth law $L(t)$ is the usual algebraic one, $L(t)\sim t^{1/z}$, of the corresponding model with nearest neighborg interaction ($z_{NCOP}=2$ and $z_{COP}=3$) for all models except $J_{pow}$ for small $\sigma$: in the non conserved case when $\sigma\le 1$ ($z_{NCOP}=\sigma+1$) and in the conserved case when $\sigma\to 0^+$ ($z_{COP}=4\beta+3$, where $\beta=1/T$ is the inverse of the absolute temperature). The models with space decaying interactions also differ markedly from the ones with nearest neighbors due to the presence of many long-lasting preasymptotic regimes, such as an exponential mean-field behavior with $L(t)\sim e^{t}$, a ballistic one with $L(t)\sim t$, a slow (logarithmic) behavior $L(t)\sim \ln t$ and one with $L(t)\sim t^{1/\sigma+1}$. All these regimes and their validity ranges have been found analytically and verified in numerical simulations. Our results show that the main effect of the conservation law is a strong slowdown of COP dynamics if interactions have an extended range. Finally, we compare the Ising model at hand with continuum approaches based on a Ginzburg-Landau free energy.

## Full text

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## Figures

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## References

38 references — full list in the complete paper: https://tomesphere.com/paper/1902.06142/full.md

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Source: https://tomesphere.com/paper/1902.06142