Borel fixed-point theorem

A connected solvable algebraic group acting regularly (cf. Algebraic group of transformations) on a non-empty complete algebraic variety over an algebraically-closed field has a fixed point in . It follows from this theorem that Borel subgroups (cf. Borel subgroup) 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 : Let be a complete variety defined over a field on which a connected solvable -split group acts regularly, then the set of rational -points is either empty or it contains a point which is fixed with respect to . Hence the generalization of the theorem of conjugation of Borel subgroup is: If the field is perfect, the maximal connected solvable -split subgroups of a connected -defined algebraic group are mutually conjugate by elements of the group of -points of [2].

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