Spherical Varieties over Large Fields
Journal of Lie theory, Tome 30 (2020) no. 3, pp. 653-672
Let $k_0$ be a field of characteristic 0, $k$ its algebraic closure, $G$ a connected reductive group defined over $k$. Let $H\subset G$ be a spherical subgroup. We assume that $k_0$ is a large field, for example, $k_0$ is either the field $\mathbb{R}$ of real numbers or a $p$-adic field. Let $G_0$ be a quasi-split $k_0$-form of $G$. We show that if $H$ has self-normalizing normalizer, and $\Gamma = {\rm Gal}\,(k/k_0)$ preserves the combinatorial invariants of $G/H$, then $H$ is conjugate to a subgroup defined over $k_0$, and hence, the $G$-variety $G/H$ admits a $G_0$-equivariant $k_0$-form. In the case when $G_0$ is not assumed to be quasi-split, we give a necessary and sufficient Galois-cohomological condition for the existence of a $G_0$-equivariant $k_0$-form of $G/H$.
Classification :
20G15, 12G05, 14M17, 14G27, 14M27
Mots-clés : Equivariant form, inner form, algebraic group, spherical homogeneous space
Mots-clés : Equivariant form, inner form, algebraic group, spherical homogeneous space
@article{JLT_2020_30_3_JLT_2020_30_3_a2,
author = {S. Snegirov},
title = {Spherical {Varieties} over {Large} {Fields}},
journal = {Journal of Lie theory},
pages = {653--672},
year = {2020},
volume = {30},
number = {3},
url = {http://geodesic.mathdoc.fr/item/JLT_2020_30_3_JLT_2020_30_3_a2/}
}
S. Snegirov. Spherical Varieties over Large Fields. Journal of Lie theory, Tome 30 (2020) no. 3, pp. 653-672. http://geodesic.mathdoc.fr/item/JLT_2020_30_3_JLT_2020_30_3_a2/