Delta-Matroids and Vassiliev Invariants

Lando, S. K.; Zhukov, Vyacheslav

doi:10.17323/1609-4514-2017-17-4-741-755

Cited by 19 publications

(23 citation statements)

References 20 publications

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“…To define the second Vassiliev move, they use the recently introduced (see [13]) concept of handle sliding for deltamatroids. In [10], it is shown (see Proposition 4.10) that the action of the first and second Vassiliev moves on the space V E as defined by Kleptsyn-Smirnov coincides with the one defined by Zhukov and Lando for binary delta-matroids. Taking into account Theorem 2.1, we obtain the following statement.…”

Section: Four-term Relations and Weight Systemsmentioning

confidence: 97%

“…This multiplication can be naturally transferred to the vector space CL , spanned by the Lagrangian subspaces, considered up to renumbering finite element sets. Meanwhile, in [10], a graded Hopf algebra of binary delta-matroids is constructed…”

Section: Hopf Algebras Isomorphismmentioning

confidence: 99%

“…In [10], the authors define the first and the second Vassiliev moves for binary delta-matroids B E . To define the second Vassiliev move, they use the recently introduced (see [13]) concept of handle sliding for deltamatroids.…”

Section: Four-term Relations and Weight Systemsmentioning

confidence: 99%

“…Meanwhile, Lando and Zhukov in [10] constructed a Hopf algebra of binary delta-matroids, introduced four-term relations for them and constructed a quotient Hopf algebra modulo the four-term relations. The correspondence between delta-matroids and embedded graphs allows one to associate a weight system to a linear functional on the latter Hopf algebra.…”

mentioning

confidence: 99%

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Lagrangian Subspaces, Delta-Matroids, and Four-Term Relations

Zhukov

2018

Funct Anal Its Appl

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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 4-invariants of graphs, i.e. functions on graphs that satisfy the four-term relations for graphs. Each 4-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 4-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 2n-dimensional space over 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.Finite order invariants (Vassiliev invariants) of knots are expressed in terms of weight systems, that is, functions on chord diagrams satisfying four-term relations. The vector space over C spanned by chord diagrams considered modulo four-term relations is supplied with a Hopf algebra structure. The notion of weight system is naturally extended from functions on * The article was prepared within the framework of the Academic

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Section: Four-term Relations and Weight Systemsmentioning

confidence: 97%

Section: Hopf Algebras Isomorphismmentioning

confidence: 99%

Section: Four-term Relations and Weight Systemsmentioning

confidence: 99%

mentioning

confidence: 99%

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Lagrangian Subspaces, Delta-Matroids, and Four-Term Relations

Zhukov

2018

Funct Anal Its Appl

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“…Fortunately, however, a construction due to A. Bouchet allows one to associate to each graph and each embedded graph its delta-matroid. In turn, delta-matroids span a Hopf algebra [25], and one can define the skew characteristic polynomial for delta-matroids following the same pattern as above. The construction makes use of the fact that we know how to extend nondegeneracy to delta-matroids.…”

Section: Theorem 16mentioning

confidence: 99%

Skew characteristic polynomial of graphs and embedded graphs

Dogra¹,

Lando²

2022

Preprint

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We introduce a new one-variable polynomial invariant of graphs, which we call the skew characteristic polynomial. For an oriented simple graph, this is just the characteristic polynomial of its anti-symmetric adjacency matrix. For nonoriented simple graphs the definition is different, but for a certain class of graphs (namely, for intersection graphs of chord diagrams), it gives the same answer if we endow such a graph with an orientation induced by the chord diagram.We prove that this invariant satisfies Vassiliev's 4-term relations and determines therefore a finite type knot invariant. We investigate the behaviour of the polynomial with respect to the Hopf algebra structure on the space of graphs and show that it takes a constant value on any primitive element in this Hopf algebra.We also provide a two-variable extension of the skew characteristic polynomial to embedded graphs and delta-matroids. The 4-term relations for the extended polynomial prove that it determines a finite type invariant of multicomponent links.

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An extension of Stanley's chromatic symmetric function to binary delta-matroids

Nenasheva

Zhukov

2021

Discrete Mathematics

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Delta-Matroids and Vassiliev Invariants

Cited by 19 publications

References 20 publications

Lagrangian Subspaces, Delta-Matroids, and Four-Term Relations

Lagrangian Subspaces, Delta-Matroids, and Four-Term Relations

Skew characteristic polynomial of graphs and embedded graphs

An extension of Stanley's chromatic symmetric function to binary delta-matroids

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