麦凯的树木

Q3 Mathematics Algebraic Combinatorics Pub Date : 2021-09-04 DOI:10.5802/alco.270

Avraham Aizenbud, I. Entova-Aizenbud

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引用次数: 0

摘要

给定一个有限群$G$及其表示$\rho$，相应的McKay图是一个图$\Gamma(G,\rho)$，其顶点是$G$的不可约表示;$\Gamma(G,\rho)$的两个顶点$\pi,\tau$之间的边数为$dim Hom_G(\pi \otimes \rho, \tau) $。给定组$G$的所有McKay图的集合在某种意义上编码了它的字符表。这样的图也被McKay用来提供$SU(2)$的有限子群和类型为$A, D, E$的仿射Dynkin图之间的双射，这种双射是通过考虑适当的McKay图给出的。本文对有限群的McKay图的所有(无向)树进行了分类，并描述了相应的对$(G,\rho)$;这种分类结果非常简洁。此外，我们给出了属于森林的McKay图的部分分类，并构造了一些非平凡的例子。

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McKay trees

Given a finite group $G$ and its representation $\rho$, the corresponding McKay graph is a graph $\Gamma(G,\rho)$ whose vertices are the irreducible representations of $G$; the number of edges between two vertices $\pi,\tau$ of $\Gamma(G,\rho)$ is $dim Hom_G(\pi \otimes \rho, \tau) $. The collection of all McKay graphs for a given group $G$ encodes, in a sense, its character table. Such graphs were also used by McKay to provide a bijection between the finite subgroups of $SU(2)$ and the affine Dynkin diagrams of types $A, D, E$, the bijection given by considering the appropriate McKay graphs. In this paper, we classify all (undirected) trees which are McKay graphs of finite groups and describe the corresponding pairs $(G,\rho)$; this classification turns out to be very concise. Moreover, we give a partial classification of McKay graphs which are forests, and construct some non-trivial examples of such forests.

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