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Group Connectivity under $3$-Edge-Connectivity (2009.06867v1)

Published 15 Sep 2020 in math.CO

Abstract: Let $S,T$ be two distinct finite Abelian groups with $|S|=|T|$. A fundamental theorem of Tutte shows that a graph admits a nowhere-zero $S$-flow if and only if it admits a nowhere-zero $T$-flow. Jaeger, Linial, Payan and Tarsi in 1992 introduced group connectivity as an extension of flow theory, and they asked whether such a relation holds for group connectivity analogy. It was negatively answered by Hu\v{s}ek, Moheln\'{i}kov\'{a} and \v{S}\'{a}mal in 2017 for graphs with edge-connectivity 2 for the groups $S=\mathbb{Z}_4$ and $T=\mathbb{Z}_22$. In this paper, we extend their results to $3$-edge-connected graphs (including both cubic and general graphs), which answers open problems proposed by Hu\v{s}ek, Moheln\'{i}kov\'{a} and \v{S}\'{a}mal(2017) and Lai, Li, Shao and Zhan(2011). Combining some previous results, this characterizes all the equivalence of group connectivity under $3$-edge-connectivity, showing that every $3$-edge-connected $S$-connected graph is $T$-connected if and only if ${S,T}\neq {\mathbb{Z}_4,\mathbb{Z}_22}$.

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