Configuration polynomials under contact equivalence
Algebraic Geometry
2022-11-08 v3 Combinatorics
Abstract
Configuration polynomials generalize the classical Kirchhoff polynomial defined by a graph. Their study sheds light on certain polynomials appearing in Feynman integrands. Contact equivalence provides a way to study the associated configuration hypersurface. In the contact equivalence class of any configuration polynomial we identify a polynomial with minimal number of variables; it is a configuration polynomial. This minimal number is bounded by , where is the rank of the underlying matroid. We show that the number of equivalence classes is finite exactly up to rank and list explicit normal forms for these classes.
Cite
@article{arxiv.2005.08181,
title = {Configuration polynomials under contact equivalence},
author = {Graham Denham and Delphine Pol and Mathias Schulze and Uli Walther},
journal= {arXiv preprint arXiv:2005.08181},
year = {2022}
}
Comments
19 pages, 1 table