Matroid connectivity and singularities of configuration hypersurfaces-Reference-Cited by-同舟云学术

Matroid connectivity and singularities of configuration hypersurfaces

Published:2021-01-25 Issue:1 Volume:111 Page:
ISSN:0377-9017
Container-title:Letters in Mathematical Physics
language:en
Short-container-title:Lett Math Phys

Author:

Denham Graham,Schulze Mathias^ORCID,Walther Uli

Abstract

AbstractConsider a linear realization of a matroid over a field. One associates with it a configuration polynomial and a symmetric bilinear form with linear homogeneous coefficients. The corresponding configuration hypersurface and its non-smooth locus support the respective first and second degeneracy scheme of the bilinear form. We show that these schemes are reduced and describe the effect of matroid connectivity: for (2-)connected matroids, the configuration hypersurface is integral, and the second degeneracy scheme is reduced Cohen–Macaulay of codimension 3. If the matroid is 3-connected, then also the second degeneracy scheme is integral. In the process, we describe the behavior of configuration polynomials, forms and schemes with respect to various matroid constructions.

Funder

DFG

NSERC

NSF

Simons Foundation

Publisher

Springer Science and Business Media LLC

Subject

Mathematical Physics,Statistical and Nonlinear Physics

Link

http://link.springer.com/content/pdf/10.1007/s11005-020-01352-3.pdf

Reference30 articles.

1. Aluffi, P., Marcolli, M.: Algebro-geometric Feynman rules. Int. J. Geom. Methods Mod. Phys. 8(1), 203–237 (2011)

2. Aluffi, P., Marcolli, M.: Feynman motives and deletion-contraction relations. In: Topology of Algebraic Varieties and Singularities, Contemporary Mathematics, vol. 538, pp. 21–64. American Mathematical Society, Providence, RI (2011)

3. Anari, N., Gharan, S. O., Vinzant, C.: Log-concave polynomials, entropy, and a deterministic approximation algorithm for counting bases of matroids. In: 59th Annual IEEE Symposium on Foundations of Computer Science—FOCS 2018, pp. 35–46. IEEE Computer Society, Los Alamitos, CA (2018)

4. Belkale, P., Brosnan, P.: Matroids, motives, and a conjecture of Kontsevich. Duke Math. J. 116(1), 147–188 (2003)

5. Bocci, C., Carlini, E., Kileel, J.: Hadamard products of linear spaces. J. Algebra 448, 595–617 (2016)

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