Planar diagrams for local invariants of graphs in surfaces

Abstract

In order to apply quantum topology methods to nonplanar graphs, we define a planar diagram category that describes the local topology of embeddings of graphs into surfaces. These virtual graphs are a categorical interpretation of ribbon graphs. We describe an extension of the flow polynomial to virtual graphs, the S-polynomial, and formulate the sl(N) Penrose polynomial for non-cubic graphs, giving contraction-deletion relations. The S-polynomial is used to define an extension of the Yamada polynomial to virtual spatial graphs, and with it we obtain a sufficient condition for non-classicality of virtual spatial graphs. We conjecture the existence of local relations for the S-polynomial at squares of integers.