Semialgebraic groups and generalized affine buildings
Abstract
We develop the theory of algebraic groups over real closed fields and apply the results to construct a geometric object and to prove that is an affine -building. We use a model theoretic transfer principle to prove generalizations of statements about semisimple Lie groups. In this direction we give proofs for the Iwasawa-decomposition , the Cartan-decomposition and the Bruhat-decomposition . For unipotent subgroups we prove the Baker-Campbell-Hausdorff formula and use it to analyse root groups. We give a proof of the Jacobson-Morozov Lemma about subgroups whose Lie algebra is isomorphic to and we describe other rank 1 subgroups which are the semisimple parts of Levi-subgroups. We prove a semialgebraic version of Kostant's convexity. Over the reals, semisimple Lie groups are closely related to the symmetry groups of symmetric spaces of non-compact type. These symmetric spaces can be described semialgebraically, which allows us to consider their semialgebraic extension over any real closed field. Starting from these non-standard symmetric spaces we use a valuation (with image some non-discrete ordered abelian group ) on the fields to define a -pseudometric. Identifying points of distance zero results in a -metric space . Assuming that the root system of the associated Lie group is reduced, we prove that is an affine -building. The proof relies on a thorough analysis of stabilizers.
Keywords
Cite
@article{arxiv.2407.20406,
title = {Semialgebraic groups and generalized affine buildings},
author = {Raphael Appenzeller},
journal= {arXiv preprint arXiv:2407.20406},
year = {2024}
}
Comments
doctoral thesis, 140 pages, 18 figures