Words, permutations, and the nonsolvable length of a finite group

Alexander Bors; Aner Shalev

doi:10.4171/JCA/51

Words, permutations, and the nonsolvable length of a finite group

Alexander Bors, Aner Shalev

Einstein Institute of Mathematics

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

We study the impact of certain identities and probabilistic identities on the structure of finite groups. More specifically, let w be a nontrivial word in d distinct variables and let G be a finite group for which the word map wG: Gd → G has a fiber of size at least ρ|G|d for some fixed ρ < 0. We show that, for certain words w, this implies that G has a normal solvable subgroup of index bounded above in terms of w and ρ. We also show that, for a larger family of words w, this implies that the nonsolvable length of G is bounded above in terms of w and ρ, thus providing evidence in favor of a conjecture of Larsen. Along the way we obtain results of independent interest on permutation groups; e.g. we show, roughly, that most elements of large finite permutation groups have large support.

Original language	English
Pages (from-to)	93-112
Number of pages	20
Journal	Journal of Combinatorial Algebra
Volume	5
Issue number	2
DOIs	https://doi.org/10.4171/JCA/51
State	Published - 1 May 2021

Keywords

Finite groups
Identities
Nonsolvable length
Probabilistic identities
Word maps

All Science Journal Classification (ASJC) codes

Algebra and Number Theory
Discrete Mathematics and Combinatorics

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10.4171/JCA/51

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title = "Words, permutations, and the nonsolvable length of a finite group",

abstract = "We study the impact of certain identities and probabilistic identities on the structure of finite groups. More specifically, let w be a nontrivial word in d distinct variables and let G be a finite group for which the word map wG: Gd → G has a fiber of size at least ρ|G|d for some fixed ρ < 0. We show that, for certain words w, this implies that G has a normal solvable subgroup of index bounded above in terms of w and ρ. We also show that, for a larger family of words w, this implies that the nonsolvable length of G is bounded above in terms of w and ρ, thus providing evidence in favor of a conjecture of Larsen. Along the way we obtain results of independent interest on permutation groups; e.g. we show, roughly, that most elements of large finite permutation groups have large support.",

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AU - Shalev, Aner

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AB - We study the impact of certain identities and probabilistic identities on the structure of finite groups. More specifically, let w be a nontrivial word in d distinct variables and let G be a finite group for which the word map wG: Gd → G has a fiber of size at least ρ|G|d for some fixed ρ < 0. We show that, for certain words w, this implies that G has a normal solvable subgroup of index bounded above in terms of w and ρ. We also show that, for a larger family of words w, this implies that the nonsolvable length of G is bounded above in terms of w and ρ, thus providing evidence in favor of a conjecture of Larsen. Along the way we obtain results of independent interest on permutation groups; e.g. we show, roughly, that most elements of large finite permutation groups have large support.

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KW - Nonsolvable length

KW - Probabilistic identities

KW - Word maps

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DO - 10.4171/JCA/51

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JO - Journal of Combinatorial Algebra

JF - Journal of Combinatorial Algebra

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ER -

Words, permutations, and the nonsolvable length of a finite group

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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