English

Mapping sparse signed graphs to $(K_{2k}, M)$

Combinatorics 2021-01-22 v1

Abstract

A homomorphism of a signed graph (G,σ)(G, \sigma) to (H,π)(H, \pi) is a mapping of vertices and edges of GG to (respectively) vertices and edges of HH such that adjacencies, incidences and the product of signs of closed walks are preserved. Motivated by reformulations of the kk-coloring problem in this language, and specially in connection with results on 33-coloring of planar graphs, such as Gr\"otzsch's theorem, in this work we consider bounds on maximum average degree which are sufficient for mapping to the signed graph (K2k,σm)(K_{2k}, \sigma_m) (k3k\geq 3) where σm\sigma_m assigns to edges of a perfect matching the negative sign. For k=3k=3, we show that the maximum average degree strictly less than 145\frac{14}{5} is sufficient and that this bound is tight. For all values of k4k\geq 4, we find the best maximum average degree bound to be 3. While the homomorphisms of signed graphs is relatively new subject, through the connection with the homomorphisms of 22-edge-colored graphs, which are largely studied, some earlier bounds are already given. In particular, it is implied from Theorem 2.5 of "Borodin, O. V., Kim, S.-J., Kostochka, A. V., and West, D. B., Homomorphisms from sparse graphs with large girth. J. Combin. Theory Ser. B (2004)" that if GG is a graph of girth at least 7 and maximum average degree 2811\frac{28}{11}, then for any signature σ\sigma the signed graph (G,σ)(G,\sigma) maps to (K6,σm)(K_6, \sigma_m). We discuss applications of our work to signed planar graphs and, among others, we propose questions similar to Steinberg's conjecture for the class of signed bipartite planar graphs.

Keywords

Cite

@article{arxiv.2101.08619,
  title  = {Mapping sparse signed graphs to $(K_{2k}, M)$},
  author = {Reza Naserasr and Riste Škrekovski and Zhouningxin Wang and Rongxing Xu},
  journal= {arXiv preprint arXiv:2101.08619},
  year   = {2021}
}
R2 v1 2026-06-23T22:23:20.702Z