组合数学讨论班
报告题目: Geometric representations of projective spaces and generalized quadrangles
报 告 人: Koen Thas(Ghent University)
时 间: 2026年4月10日, 09:30
地 点:海纳苑2幢303
摘 要:
(1) Title: Geometric representations of projective lines
Abstract: Given a division ring B and a division ring A such that the left dimension [A : B] = 2, one naturally has a projective line PG(1,B) at one’s disposal. If one considers a (left) vector space V of dimension n over A, a representation of PG(1,B) arises as a spread in PG(2n - 1,B). In this lecture, we study special “twisted” representations in the case n = 2 with remarkable geometric and automorphic properties. (This is joint work with Hendrik Van Maldeghem.)
(2)Title: Modular representation theory of skew translation generalized quadrangles
Abstract:Suppose Q is a skew translation generalized quadrangle (STGQ) with associated central symmetry group S. In a recent paper, we have shown that S cannot be a subgroup of (ℤ,+) (whereas in the finite case, one indeed has examples of STGQs for which the central symmetry group is cyclic). More generally, call an STGQ modular if Aut(S) is a subgroup of the modular group GL(n,ℤ). In the current lecture, we present new nonexistence results for modular STGQs.
(3)Title: Free automorphic actions on projective spaces
Abstract:The theory of Singer groups has been very fruitful in finite geometry over the years, but lacks the proper foundations in the infinite case. (Recall that a Singer group of a projective space is an automorphism group which acts sharply transitively on the point set.) The standard formalism to construct Singer groups for a projective space PG(n,K) (with K a field and infinite) consists of taking a field extension E of K degree n + 1, and interpreting E as an (n + 1)-dimensional vector space over K. The field E then naturally acts freely and transitively on the points of PG(n,K) by multiplication. But what happens if there are no field extensions of degree n + 1 (and in particular if K is algebraically closed)? This is the question we want to explore in the present lecture.