Orientations, lattice polytopes, and group arrangements III: Cartesian product arrangements and applications to the Tutte type polynomials of graphs

Details Orientations, lattice polytopes, and group arrangements III: Cartesian product arrangements and applications to the Tutte type polynomials of graphs Orientations, lattice polytopes, and group arrangements III: Cartesian product arrangements and applications to the Tutte type polynomials of graphs

2010-07-14

arxiv.org/abs/1007.2453v1

Mathematics

Combinatorics

24 pages

Scientific paper

A common generalization for the chromatic polynomial and the flow polynomial of a graph $G$ is the Tutte polynomial $T(G;x,y)$. The combinatorial meaning for the coefficients of $T$ was discovered by Tutte at the beginning of its definition. However, for a long time the combinatorial meaning for the values of $T$ is missing, except for a few values such as $T(G;i,j)$, where $1\leq i,j\leq 2$, until recently for $T(G;1,0)$ and $T(G;0,1)$. In this third one of a series of papers, we introduce product valuations, cartesian product arrangements, and multivariable characteristic polynomials, and apply the theory of product arrangement to the tension-flow group associated with graphs. Three types of tension-flows are studied in details: elliptic, parabolic, and hyperbolic; each type produces a two-variable polynomial for graphs. Weighted polynomials are introduced and their reciprocity laws are obtained. The dual versions for the parabolic case turns out to include Whitney's rank generating polynomial and the Tutte polynomial as special cases. The product arrangement part is of interest for its own right. The application part to graphs can be modified to matroids.

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