# Interplay of interfacial noise and curvature driven dynamics in two   dimensions

**Authors:** Parna Roy, Parongama Sen

arXiv: 1701.09117 · 2017-02-09

## TL;DR

This paper investigates how interfacial noise and curvature-driven dynamics interact in a two-dimensional binary spin system, revealing the emergence of two distinct time scales and universal exit probability behavior across different parameter regimes.

## Contribution

It introduces a generalized voter model with tunable parameters, demonstrating the coexistence and interplay of noise and curvature effects in coarsening dynamics.

## Key findings

- Identification of two time scales for x ≥ 0.7
- Universal exit probability with an exponent for all x > 0.5
- Distinct dynamical behaviors from pure voter and Ising models

## Abstract

We explore the effect of interplay of interfacial noise and curvature driven dynamics in a binary spin system. An appropriate model is the generalised two dimensional voter model proposed earlier (J. Phys. A: Math. Gen. {\bf 26}, 2317 (1993)), where the flipping probability of a spin depends on the state of its neighbours and is given in terms of two parameters $x$ and $y$. $x = 0.5, y =1$ corresponds to the conventional voter model which is purely interfacial noise driven while $x = 1 $ and $y = 1$ corresponds to the Ising model, where coarsening is fully curvature driven. The coarsening phenomena for $0.5< x < 1$ keeping $y=1$ is studied in detail. The dynamical behaviour of the relevant quantities show characteristic differences from both $x=0.5$ and $1$. The most remarkable result is the existence of two time scales for $x\ge x_c$ where $x_c \approx 0.7$. On the other hand, we have studied the exit probability which shows Ising like behaviour with an universal exponent for any value of $x > 0.5$; the effect of $x$ appears in altering the value of the parameter occurring in the scaling function only.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1701.09117/full.md

## References

29 references — full list in the complete paper: https://tomesphere.com/paper/1701.09117/full.md

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Source: https://tomesphere.com/paper/1701.09117