ENUMERATION OF MEANDERS AND MASUR–VEECH VOLUMES

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2017-05-15 DOI:10.1017/fmp.2020.2
V. Delecroix, É. Goujard, P. Zograf, A. Zorich
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引用次数: 20

Abstract

A meander is a topological configuration of a line and a simple closed curve in the plane (or a pair of simple closed curves on the 2-sphere) intersecting transversally. Meanders can be traced back to H. Poincaré and naturally appear in various areas of mathematics, theoretical physics and computational biology (in particular, they provide a model of polymer folding). Enumeration of meanders is an important open problem. The number of meanders with $2N$ crossings grows exponentially when $N$ grows, but the long-standing problem on the precise asymptotics is still out of reach. We show that the situation becomes more tractable if one additionally fixes the topological type (or the total number of minimal arcs) of a meander. Then we are able to derive simple asymptotic formulas for the numbers of meanders as $N$ tends to infinity. We also compute the asymptotic probability of getting a simple closed curve on a sphere by identifying the endpoints of two arc systems (one on each of the two hemispheres) along the common equator. The new tools we bring to bear are based on interpretation of meanders as square-tiled surfaces with one horizontal and one vertical cylinder. The proofs combine recent results on Masur–Veech volumes of moduli spaces of meromorphic quadratic differentials in genus zero with our new observation that horizontal and vertical separatrix diagrams of integer quadratic differentials are asymptotically uncorrelated. The additional combinatorial constraints we impose in this article yield explicit polynomial asymptotics.
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曲流和马苏尔-VEECH体积的计数
曲流是平面上一条直线与一条简单闭合曲线(或2球上一对简单闭合曲线)横相交的拓扑构型。弯曲可以追溯到H. poincarcarcarve,并且自然地出现在数学,理论物理和计算生物学的各个领域(特别是,它们提供了聚合物折叠的模型)。曲径的枚举是一个重要的开放性问题。当$N$增加时,$2N$交叉的曲径数量呈指数增长,但长期存在的关于精确渐近的问题仍然无法解决。我们证明,如果一个额外的固定的拓扑类型(或最小弧的总数)的曲流的情况变得更容易处理。然后,我们可以推导出当N趋于无穷时曲径数的简单渐近公式。我们还通过确定沿共同赤道的两个弧系统(两个半球各一个弧系统)的端点,计算了在球体上得到简单封闭曲线的渐近概率。我们带来的新工具是基于对弯曲的解释,即一个水平和一个垂直圆柱体的方形瓷砖表面。这些证明结合了最近关于零属亚纯二次微分模空间的Masur-Veech体积的结果和我们关于整数二次微分的水平和垂直分离矩阵图渐近不相关的新观察。我们在本文中附加的组合约束产生显式多项式渐近。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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