A note on Goldberg's conjecture on total chromatic numbers
Abstract: Let $G=(V(G), E(G))$ be a multigraph with maximum degree $\Delta(G)$, chromatic index $\chi'(G)$ and total chromatic number $\chi''(G)$. The Total Coloring conjecture proposed by Behzad and Vizing, independently, states that $\chi''(G)\leq \Delta(G)+\mu(G) +1$ for a multigraph $G$, where $\mu(G)$ is the multiplicity of $G$. Moreover, Goldberg conjectured that $\chi''(G)=\chi'(G)$ if $\chi'(G)\geq \Delta(G)+3$ and noticed the conjecture holds when $G$ is an edge-chromatic critical graph. By assuming the Goldberg-Seymour conjecture, we show that $\chi''(G)=\chi'(G)$ if $\chi'(G)\geq \max{ \Delta(G)+2, |V(G)|+1}$ in this note. Consequently, $\chi''(G) = \chi'(G)$ if $\chi'(G) \ge \Delta(G) +2$ and $G$ has a spanning edge-chromatic critical subgraph.
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