# The Sierpi\'nski product of graphs

**Authors:** Jurij Kovi\v{c}, Toma\v{z} Pisanski, Sara Sabrina Zemlji\v{c} and, Arjana \v{Z}itnik

arXiv: 1904.04180 · 2019-04-09

## TL;DR

This paper introduces a generalized Sierpiński graph product based on a graph operation involving a function, exploring its properties such as connectivity, planarity, and automorphisms, extending the classical Sierpiński graph construction.

## Contribution

It defines a new graph product called the Sierpiński product, generalizes the classical construction, and analyzes its fundamental properties and automorphism groups.

## Key findings

- The product is connected iff both factors are connected.
-  Conditions for planarity of the product are established.
-  Automorphism groups of the product are characterized.

## Abstract

In this paper we introduce a product-like operation that generalizes the construction of generalized Sierpi\'nski graphs. Let $G,H$ be graphs and let $f: V(G) \to V(H)$ be a function. Then the Sierpi\'nski product of $G$ and $H$ with respect to $f$ is defined as a pair $(K,\varphi)$, where $K$ is a graph on the vertex set $V(G) \times V(H)$ with two types of edges:   -- $\{(g,h),(g,h')\}$ is an edge in $K$ for every $g\in V(G)$ and every $\{h,h'\}\in E(H)$,   -- $\{(g,f(g'),(g',f(g))\}$ is an edge in $K$ for every edge $\{g,g'\} \in E(G)$; and $\varphi: V(G) \to V(K)$ is a function that maps every vertex $g \in V(G)$ to the vertex $(g,f(g)) \in V(K)$. Graph $K$ will be denoted by $G\otimes_f H$. Function $\varphi$ is needed to define the product of more than two factors. By applying this operation $n$ times to the same graph we obtain the $n$-th generalized Sierpi\'nski graph.   Some basic properties of the Sierpi\'nski product are presented. In particular, we show that $G \otimes_f H$ is connected if and only if both $G$ and $H$ are connected and we present some necessary and sufficient conditions that $G,H$ must fulfill in order for $G \otimes_f H$ to be planar. As for symmetry properties, we show which automorphisms of $G$ and $H$ extend to automorphisms of $G \otimes_f H$. In many cases we can also describe the whole automorphism group of $G\otimes_f H$.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1904.04180/full.md

## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1904.04180/full.md

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Source: https://tomesphere.com/paper/1904.04180