The Limit Shape of the Leaky Abelian Sandpile Model

Ian Alevy, S. Mkrtchyan
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引用次数: 2

Abstract

The leaky abelian sandpile model (Leaky-ASM) is a growth model in which $n$ grains of sand start at the origin in $\mathbb{Z}^2$ and diffuse along the vertices according to a toppling rule. A site can topple if its amount of sand is above a threshold. In each topple a site sends some sand to each neighbor and leaks a portion $1-1/d$ of its sand. We compute the limit shape as a function of $d$ in the symmetric case where each topple sends an equal amount of sand to each neighbor. The limit shape converges to a circle as $d\to 1$ and a diamond as $d\to\infty$. We compute the limit shape by comparing the odometer function at a site to the probability that a killed random walk dies at that site. When $d\to 1$ the Leaky-ASM converges to the abelian sandpile model (ASM) with a modified initial configuration. We also prove the limit shape is a circle when simultaneously with $n\to\infty$ we have that $d=d_n$ converges to $1$ slower than any power of $n$. To gain information about the ASM faster convergence is necessary.
漏型阿贝尔沙堆模型的极限形状
漏性阿贝尔沙堆模型(leaky - asm)是一种$n$沙粒从$\mathbb{Z}^2$原点出发,按照倾倒规律沿顶点扩散的生长模型。如果沙子的数量超过一定的阈值,一个场地就会倒塌。在每一次倾覆中,一个站点向每个邻居发送一些沙子,并泄漏一部分沙子$1-1/d$。在对称情况下,我们计算极限形状为$d$的函数,其中每个倾倒者向每个邻居发送等量的沙子。极限形状收敛为圆形$d\to 1$和菱形$d\to\infty$。我们通过比较某一地点的里程计函数与随机漫步在该地点死亡的概率来计算极限形状。当$d\to 1$时,Leaky-ASM收敛到初始配置修改的阿贝尔沙堆模型(ASM)。我们还证明了极限形状是圆,当与$n\to\infty$同时,我们得到$d=d_n$收敛到$1$的速度比$n$的任意次幂慢。为了获得有关ASM的信息,必须加快收敛速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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