关于 $${text {PSL}}_2(q)$$ 的交集谱

Pub Date : 2024-09-13 DOI:10.1007/s10801-024-01356-5

Angelot Behajaina, Roghayeh Maleki, Andriaherimanana Sarobidy Razafimahatratra

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引用次数: 0

摘要

给定一个群 G 和一个子群（H /le G），如果对于任意的（g,g'），存在（xH /in G/H）使得（gxH=g'xH/），那么这个集合（\mathcal {F}\subset G）就叫做 H 交集。通过（左）乘法，G作用于G/H的交密度是有理数$\rho (G,H)$，等于最大比率$\frac{|\mathcal {F}|}{|H|}$, 其中$\mathcal {F} \子集 G$ 贯穿G的所有H交集。\sigma (G) := \left\{ \rho (G,H) ：Hle G \right\} .\end{aligned}$$Bardestani 和 Mallahi-Karai (J Algebraic Combin, 42(1):111-128, 2015) 证明，如果 $\sigma (G) = \{1\}$，那么 G 必然是可解的。因此，自然而然产生的问题是，当 G 不可解时，哪些大于 1 的有理数属于 $\sigma（G）$。本文研究了线性群 ${\text {PSL}}_2(q)$ 的交集谱。研究表明，对于任意质幂 $2 \in \sigma \left( {\text {PSL}}_2(q)\right) $，对于任意质幂 $q\equiv 3 \pmod 4$.此外，当 $q\equiv 1 \pmod 4$ 时，可以证明 $\rho ({\text {PSL}}_2(q),H)=1$、对于由所有上三角矩阵组成的波尔子群（与 ${\mathbb {F}_q\rtimes {\mathbb {Z}_{\frac{q-1}{2}} 同构）的任何奇数索引子群 H（包含 \({\mathbb {F}_q$ ）。

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On the intersection spectrum of $${\text {PSL}}_2(q)$$

Given a group G and a subgroup $H \le G$, a set $\mathcal {F}\subset G$ is called H-intersecting if for any $g,g' \in \mathcal {F}$, there exists $xH \in G/H$ such that $gxH=g'xH$. The intersection density of the action of G on G/H by (left) multiplication is the rational number $\rho (G,H)$, equal to the maximum ratio $\frac{|\mathcal {F}|}{|H|}$, where $\mathcal {F} \subset G$ runs through all H-intersecting sets of G. The intersection spectrum of the group G is then defined to be the set

$$\begin{aligned} \sigma (G) := \left\{ \rho (G,H) : H\le G \right\} . \end{aligned}$$

It was shown by Bardestani and Mallahi-Karai (J Algebraic Combin, 42(1):111–128, 2015) that if $\sigma (G) = \{1\}$, then G is necessarily solvable. The natural question that arises is, therefore, which rational numbers larger than 1 belong to $\sigma (G)$, whenever G is non-solvable. In this paper, we study the intersection spectrum of the linear group ${\text {PSL}}_2(q)$. It is shown that $2 \in \sigma \left( {\text {PSL}}_2(q)\right) $, for any prime power $q\equiv 3 \pmod 4$. Moreover, when $q\equiv 1 \pmod 4$, it is proved that $\rho ({\text {PSL}}_2(q),H)=1$, for any odd index subgroup H (containing ${\mathbb {F}}_q$) of the Borel subgroup (isomorphic to ${\mathbb {F}}_q\rtimes {\mathbb {Z}}_{\frac{q-1}{2}}$) consisting of all upper triangular matrices.

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