Difference between revisions of "Borel fixed-point theorem"
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| − | A connected solvable algebraic group | + | A connected solvable algebraic group $G$ acting regularly (cf. [[Algebraic group of transformations]]) on a non-empty complete algebraic variety $V$ over an algebraically-closed field $k$ has a fixed point in $V$. It follows from this theorem that [[Borel subgroup]]s of algebraic groups are conjugate (The Borel–Morozov theorem). The theorem was demonstrated by A. Borel [[#References|[1]]]. Borel's theorem can be generalized to an arbitrary (not necessarily algebraically-closed) field $k$: Let $V$ be a [[Complete algebraic variety|complete variety]] defined over a field $k$ on which a connected solvable $k$-[[split group]] $G$ acts regularly, then the set of rational $k$-points $V(k)$ is either empty or it contains a point which is fixed with respect to $G$. Hence the generalization of the theorem of conjugation of Borel subgroup is: If the field $k$ is [[Perfect field|perfect]], the maximal connected solvable $k$-split subgroups of a connected $k$-defined algebraic group $H$ are mutually conjugate by elements of the group of $k$-points of $H$ [[#References|[2]]]. |
====References==== | ====References==== | ||
| − | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> A. Borel, "Groupes linéaires algébriques" ''Ann. of Math. (2)'' , '''64''' : 1 (1956) pp. 20–82 {{MR|0093006}} {{ZBL|0070.26104}} </TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> A. Borel, "Linear algebraic groups" , Benjamin (1969) {{MR|0251042}} {{ZBL|0206.49801}} {{ZBL|0186.33201}} </TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> V.V. Morozov, ''Dokl. Akad. Nauk SSSR'' , '''36''' : 3 (1942) pp. 91–94 {{MR|}} {{ZBL|}} </TD></TR></table> | + | <table> |
| + | <TR><TD valign="top">[1]</TD> <TD valign="top"> A. Borel, "Groupes linéaires algébriques" ''Ann. of Math. (2)'' , '''64''' : 1 (1956) pp. 20–82 {{MR|0093006}} {{ZBL|0070.26104}} </TD></TR> | ||
| + | <TR><TD valign="top">[2]</TD> <TD valign="top"> A. Borel, "Linear algebraic groups" , Benjamin (1969) {{MR|0251042}} {{ZBL|0206.49801}} {{ZBL|0186.33201}} </TD></TR> | ||
| + | <TR><TD valign="top">[3]</TD> <TD valign="top"> V.V. Morozov, ''Dokl. Akad. Nauk SSSR'' , '''36''' : 3 (1942) pp. 91–94 {{MR|}} {{ZBL|}} </TD></TR> | ||
| + | </table> | ||
| + | |||
| + | {{TEX|done}} | ||
Revision as of 19:18, 31 March 2018
A connected solvable algebraic group $G$ acting regularly (cf. Algebraic group of transformations) on a non-empty complete algebraic variety $V$ over an algebraically-closed field $k$ has a fixed point in $V$. It follows from this theorem that Borel subgroups of algebraic groups are conjugate (The Borel–Morozov theorem). The theorem was demonstrated by A. Borel [1]. Borel's theorem can be generalized to an arbitrary (not necessarily algebraically-closed) field $k$: Let $V$ be a complete variety defined over a field $k$ on which a connected solvable $k$-split group $G$ acts regularly, then the set of rational $k$-points $V(k)$ is either empty or it contains a point which is fixed with respect to $G$. Hence the generalization of the theorem of conjugation of Borel subgroup is: If the field $k$ is perfect, the maximal connected solvable $k$-split subgroups of a connected $k$-defined algebraic group $H$ are mutually conjugate by elements of the group of $k$-points of $H$ [2].
References
| [1] | A. Borel, "Groupes linéaires algébriques" Ann. of Math. (2) , 64 : 1 (1956) pp. 20–82 MR0093006 Zbl 0070.26104 |
| [2] | A. Borel, "Linear algebraic groups" , Benjamin (1969) MR0251042 Zbl 0206.49801 Zbl 0186.33201 |
| [3] | V.V. Morozov, Dokl. Akad. Nauk SSSR , 36 : 3 (1942) pp. 91–94 |
How to Cite This Entry:
Borel fixed-point theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Borel_fixed-point_theorem&oldid=43054
Borel fixed-point theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Borel_fixed-point_theorem&oldid=43054
This article was adapted from an original article by V.P. Platonov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article