The moduli space of matroids
| Autor: | Oliver Lorscheid, Matthew Baker |
|---|---|
| Přispěvatelé: | Dynamical Systems, Geometry & Mathematical Physics |
| Jazyk: | angličtina |
| Rok vydání: | 2021 |
| Předmět: |
Mathematics::Combinatorics
Functor F-geometry Group (mathematics) General Mathematics 010102 general mathematics 0102 computer and information sciences Tracts 01 natural sciences Matroid Moduli space Combinatorics Matroids Mathematics - Algebraic Geometry Morphism 010201 computation theory & mathematics Scheme (mathematics) Blueprints FOS: Mathematics Isomorphism 0101 mathematics Algebraic Geometry (math.AG) Mathematics Initial and terminal objects |
| Zdroj: | Advances in Mathematics, 390:107883 |
| ISSN: | 0001-8708 |
| Popis: | In the first part of the paper, we clarify the connections between several algebraic objects appearing in matroid theory: both partial fields and hyperfields are fuzzy rings, fuzzy rings are tracts, and these relations are compatible with the respective matroid theories. Moreover, fuzzy rings are ordered blueprints and lie in the intersection of tracts with ordered blueprints; we call the objects of this intersection pastures. In the second part, we construct moduli spaces for matroids over pastures. We show that, for any non-empty finite set $E$, the functor taking a pasture $F$ to the set of isomorphism classes of rank-$r$ $F$-matroids on $E$ is representable by an ordered blue scheme $Mat(r,E)$, the moduli space of rank-$r$ matroids on $E$. In the third part, we draw conclusions on matroid theory. A classical rank-$r$ matroid $M$ on $E$ corresponds to a $\mathbb{K}$-valued point of $Mat(r,E)$ where $\mathbb{K}$ is the Krasner hyperfield. Such a point defines a residue pasture $k_M$, which we call the universal pasture of $M$. We show that for every pasture $F$, morphisms $k_M\to F$ are canonically in bijection with $F$-matroid structures on $M$. An analogous weak universal pasture $k_M^w$ classifies weak $F$-matroid structures on $M$. The unit group of $k_M^w$ can be canonically identified with the Tutte group of $M$. We call the sub-pasture $k_M^f$ of $k_M^w$ generated by ``cross-ratios' the foundation of $M$,. It parametrizes rescaling classes of weak $F$-matroid structures on $M$, and its unit group is coincides with the inner Tutte group of $M$. We show that a matroid $M$ is regular if and only if its foundation is the regular partial field, and a non-regular matroid $M$ is binary if and only if its foundation is the field with two elements. This yields a new proof of the fact that a matroid is regular if and only if it is both binary and orientable. 85 pages; some additional material, e.g. a new section 5.6; the terminology has been adapted to the usage in follow-up papers |
| Databáze: | OpenAIRE |
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