Anti-Ramsey number of matchings in $r$-partite $r$-uniform hypergraphs.

An edge-colored hypergraph is rainbow if all of its edges have different colors. Given two hypergraphs $\mathcal{H}$ and $\mathcal{G}$, the anti-Ramsey number $ar(\mathcal{G}, \mathcal{H})$ of $\mathcal{H}$ in $\mathcal{G}$ is the maximum number of colors needed to color the edges of $\mathcal{G}$ so that there does not exist a rainbow copy of $\mathcal{H}$. Li et al. determined the anti-Ramsey number of $k$-matchings in complete bipartite graphs. Jin and Zang showed the uniqueness of the extremal coloring. In this paper, as a generalization of these results, we determine the anti-Ramsey number $ar_r(\mathcal{K}_{n_1,\ldots,n_r},M_k)$ of $k$-matchings in complete $r$-partite $r$-uniform hypergraphs and show the uniqueness of the extremal coloring. Also, we show that $\mathcal{K}_{k-1,n_2,\ldots,n_r}$ is the unique extremal hypergraph for Turan number $ex_r(\mathcal{K}_{n_1,\ldots,n_r},M_k)$ and show that $ar_r(\mathcal{K}_{n_1,\ldots,n_r},$ $M_k)=ex_r(\mathcal{K}_{n_1,\ldots,n_r},M_{k-1})+1$, which gives a multi-partite version result of Ozkahya and Young's conjecture.