English

Lagrangian subspaces, delta-matroids and four-term relations

Combinatorics 2018-06-01 v1

Abstract

Finite order invariants (Vassiliev invariants) of knots are expressed in terms of weight systems, that is, functions on chord diagrams satisfying the four-term relations. Weight systems have graph analogues, so-called 44-invariants of graphs, i.e. functions on graphs that satisfy the four-term relations for graphs. Each 44-invariant determines a weight system. The notion of weight system is naturally generalized for the case of embedded graphs with an arbitrary number of vertices. Such embedded graphs correspond to links; to each component of a link there corresponds a vertex of an embedded graph. Recently, two approaches have been suggested to extend the notion of 44-invariants of graphs to the case of combinatorial structures corresponding to embedded graphs with an arbitrary number of vertices. The first approach is due to V.~Kleptsyn and E.~Smirnov, who considered functions on Lagrangian subspaces in a 2n2n-dimensional space over F2\mathbb{F}_2 endowed with a standard symplectic form and introduced four-term relations for them. On the other hand, the second approach, the one due to Zhukov and Lando, suggests four-term relations for functions on binary delta-matroids. In this paper, we prove that the two approaches are equivalent.

Keywords

Cite

@article{arxiv.1805.12477,
  title  = {Lagrangian subspaces, delta-matroids and four-term relations},
  author = {V. I. Zhukov},
  journal= {arXiv preprint arXiv:1805.12477},
  year   = {2018}
}
R2 v1 2026-06-23T02:14:45.622Z