Automorphisms of Kronrod-Reeb graphs of Morse functions on 2-sphere

Q3 Mathematics

Proceedings of the International Geometry Center Pub Date : 2019-03-22 DOI:10.15673/tmgc.v11i4.1306

A. Kravchenko, S. Maksymenko

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引用次数: 3

Abstract

Let $M$ be a compact two-dimensional manifold and, $f \in C^{\infty}(M, R)$ be a Morse function, and $\Gamma$ be its Kronrod-Reeb graph.Denote by $O(f)={f o h | h \in D(M)}$ the orbit of $f$ with respect to the natural right action of the group of diffeomorphisms $D(M)$ onC^{\infty}$, and by $S(f)={h\in D(M) | f o h = f }$ the coresponding stabilizer of this function.It is easy to show that each $h\in S(f)$ induces an automorphism of the graph $\Gamma$.Let $D_{id}(M)$ be the identity path component of $D(M)$, $S'(f) = S(f) \cap D_{id}(M)$ be the subgroup of $D_{id}(M)$ consisting of diffeomorphisms preserving $f$ and isotopic to identity map, and $G$ be the group of automorphisms of the Kronrod-Reeb graph induced by diffeomorphisms belonging to $S'(f)$. This group is one of key ingredients for calculating the homotopy type of the orbit $O(f)$. In the previous article the authors described the structure of groups $G$ for Morse functions on all orientable surfacesdistinct from $2$-torus and $2$-sphere. The present paper is devoted to the case $M = S^2$. In this situation $\Gamma$ is always a tree, and therefore all elements of the group $G$ have a common fixed subtree $Fix(G)$, which may even consist of a unique vertex. Our main result calculates the groups $G$ for all Morse functions $f: S^2 \to R$ whose fixed subtree $Fix(G)$ consists of more than one point.

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2球上Morse函数的Kronrod-Reeb图的自同构

设$M$是紧二维流形，$f \in C^{\infty}(M, R)$是莫尔斯函数，$\Gamma$是它的Kronrod-Reeb图。用$O(f)={f O h | h\in D(M)}$表示$f$相对于微分同态群的自然右作用$D(M)$ onC^{\ inty}$，用$S(f)={h\in D(M) | f O h = f}$表示该函数的相应稳定器。很容易证明S(f)$中的每个$h $引出图$\Gamma$的自同构。设$D_{id}(M)$是$D(M)$的恒等路径分量，$S'(f) = S(f) \cap $D_{id}(M)$是$D_{id}(M)$的子群，由保留$f$和恒等映射的微分同态组成，$G$是由属于$S'(f)$的微分同态诱导的Kronrod-Reeb图的自同构群。这个群是计算轨道O(f)的同伦类型的关键因素之一。在前一篇文章中，作者描述了摩尔斯函数在不同于2$环面和2$球面的所有可定向曲面上的群$G$的结构。本文研究了$M = S^2$的情况。在这种情况下$\Gamma$总是一个树，因此群$G$的所有元素都有一个公共的固定子树$Fix(G)$，它甚至可以由一个唯一的顶点组成。我们的主要结果计算了所有莫尔斯函数$f: S^2 \到R$的群$G$，其固定子树$Fix(G)$由多于一个点组成。

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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