Difference between revisions of "Fitting subgroup"
From Encyclopedia of Mathematics
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| − | The [[Characteristic subgroup|characteristic subgroup]] | + | {{TEX|done}} |
| + | The [[Characteristic subgroup|characteristic subgroup]] $F(G)=F$ of a group $G$ generated by all the nilpotent normal subgroups of $G$; it is also called the Fitting radical. It was first studied by H. Fitting [[#References|[1]]]. For finite groups, the Fitting subgroup is nilpotent and is the unique maximal nilpotent normal subgroup of the group. For a finite group $G$ the following relations hold: | ||
| − | + | $$ [F,F]\subseteq\Phi\subseteq F \quad and \quad F/\Phi=F(G/\Phi) , $$ | |
| − | + | where $\Phi$ denotes the [[Frattini-subgroup(2)|Frattini subgroup]] of $G$, and $[F,F]$ is the [[Commutator subgroup|commutator subgroup]] of $F$. | |
| − | where | ||
====References==== | ====References==== | ||
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====Comments==== | ====Comments==== | ||
| − | A finite group | + | A finite group $G$ is called quasi-nilpotent if and only if for every chief factor $H$ of $G$ every automorphism of $H$ induced by an element of $G$ is inner. Let $Z(G)=Z_0(G)=\{g\in G:gh=hg\text{ for all }h\text{ such that }h\in G\}$ be the centre of $G$. Inductively define $Z_i(G)\supseteq Z_{i-1}(G)$, $i=1,2,\ldots$ by the condition $Z_i(G)/Z_{i-1}(G)=Z(G/Z_{i-1}(G))$. The $Z_i(G)$ are all normal subgroups. The series $Z_0(G)\subseteq Z_1(G)\subseteq\ldots$ is the ascending central series of $G$. Let $Z_\infty(G)=\bigcup_i Z_i(G)$, the so-called hypercentre of $G$. A group $G$ is semi-simple if and only if it is the direct product of non-Abelian simple groups. A group $G$ is quasi-nilpotent if and only if $G/Z_\infty(G)$ is semi-simple. The generalized Fitting subgroup of a finite group $G$ is the set of all elements $x$ of $G$ which induce an inner automorphism on every chief factor of $G$. It is a characteristic subgroup of $G$ and contains every subnormal quasi-nilpotent subgroup of $G$. This property can therefore also be used to define it. |
| − | Let | + | Let $G=\gamma_1(G)\supseteq\gamma_2(G)\supseteq\ldots$ be the lower central series of $G$, i.e. $\gamma_n(G)=[G,\gamma_{n-1}(G)]$, the commutator subgroup of $G$ with $\gamma_{n-1}(G)$. Let $F^\ast(G)$ be the generalized Fitting subgroup of $G$; then $E(G)=\bigcap_{n\geq 1}\gamma_n(F^\ast(G))$ is a perfect quasi-nilpotent characteristic subgroup. It is sometimes called the layer of $G$. |
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> B. Huppert, "Endliche Gruppen" , '''1''' , Springer (1967)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Huppert, "Finite groups" , '''2–3''' , Springer (1982)</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> D.J.S. Robinson, "A course in the theory of groups" , Springer (1982)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> B. Huppert, "Endliche Gruppen" , '''1''' , Springer (1967)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Huppert, "Finite groups" , '''2–3''' , Springer (1982)</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> D.J.S. Robinson, "A course in the theory of groups" , Springer (1982)</TD></TR></table> | ||
Latest revision as of 13:05, 12 December 2013
The characteristic subgroup $F(G)=F$ of a group $G$ generated by all the nilpotent normal subgroups of $G$; it is also called the Fitting radical. It was first studied by H. Fitting [1]. For finite groups, the Fitting subgroup is nilpotent and is the unique maximal nilpotent normal subgroup of the group. For a finite group $G$ the following relations hold:
$$ [F,F]\subseteq\Phi\subseteq F \quad and \quad F/\Phi=F(G/\Phi) , $$ where $\Phi$ denotes the Frattini subgroup of $G$, and $[F,F]$ is the commutator subgroup of $F$.
References
| [1] | H. Fitting, "Beiträge zur Theorie der Gruppen endlicher Ordnung" Jahresber. Deutsch. Math.-Verein , 48 (1938) pp. 77–141 |
| [2] | A.G. Kurosh, "The theory of groups" , 1–2 , Chelsea (1955–1956) (Translated from Russian) |
| [3] | D. Gorenstein, "Finite groups" , Harper & Row (1968) |
Comments
A finite group $G$ is called quasi-nilpotent if and only if for every chief factor $H$ of $G$ every automorphism of $H$ induced by an element of $G$ is inner. Let $Z(G)=Z_0(G)=\{g\in G:gh=hg\text{ for all }h\text{ such that }h\in G\}$ be the centre of $G$. Inductively define $Z_i(G)\supseteq Z_{i-1}(G)$, $i=1,2,\ldots$ by the condition $Z_i(G)/Z_{i-1}(G)=Z(G/Z_{i-1}(G))$. The $Z_i(G)$ are all normal subgroups. The series $Z_0(G)\subseteq Z_1(G)\subseteq\ldots$ is the ascending central series of $G$. Let $Z_\infty(G)=\bigcup_i Z_i(G)$, the so-called hypercentre of $G$. A group $G$ is semi-simple if and only if it is the direct product of non-Abelian simple groups. A group $G$ is quasi-nilpotent if and only if $G/Z_\infty(G)$ is semi-simple. The generalized Fitting subgroup of a finite group $G$ is the set of all elements $x$ of $G$ which induce an inner automorphism on every chief factor of $G$. It is a characteristic subgroup of $G$ and contains every subnormal quasi-nilpotent subgroup of $G$. This property can therefore also be used to define it.
Let $G=\gamma_1(G)\supseteq\gamma_2(G)\supseteq\ldots$ be the lower central series of $G$, i.e. $\gamma_n(G)=[G,\gamma_{n-1}(G)]$, the commutator subgroup of $G$ with $\gamma_{n-1}(G)$. Let $F^\ast(G)$ be the generalized Fitting subgroup of $G$; then $E(G)=\bigcap_{n\geq 1}\gamma_n(F^\ast(G))$ is a perfect quasi-nilpotent characteristic subgroup. It is sometimes called the layer of $G$.
References
| [a1] | B. Huppert, "Endliche Gruppen" , 1 , Springer (1967) |
| [a2] | B. Huppert, "Finite groups" , 2–3 , Springer (1982) |
| [a3] | D.J.S. Robinson, "A course in the theory of groups" , Springer (1982) |
How to Cite This Entry:
Fitting subgroup. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fitting_subgroup&oldid=17227
Fitting subgroup. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fitting_subgroup&oldid=17227
This article was adapted from an original article by N.N. Vil'yams (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article