Optimal packings of bounded degree trees

Felix Joos; Jaehoon Kim; Daniela Kühn; Deryk Osthus

doi:10.4171/jems/909

JournalsjemsVol. 21, No. 12pp. 3573–3647

Optimal packings of bounded degree trees

Felix Joos
University of Birmingham, UK
Jaehoon Kim
Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Republic of Korea
Daniela Kühn
University of Birmingham, UK
Deryk Osthus
University of Birmingham, UK

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Abstract

We prove that if $T_{1}, \dots, T_{n}$ is a sequence of bounded degree trees such that $T_{i}$ has $i$ vertices, then $K_{n}$ has a decomposition into $T_{1}, \dots, T_{n}$ . This shows that the tree packing conjecture of Gyárfás and Lehel from 1976 holds for all bounded degree trees (in fact, we can allow the first $o (n)$ trees to have arbitrary degrees). Similarly, we show that Ringel's conjecture from 1963 holds for all bounded degree trees. We deduce these results from a more general theorem, which yields decompositions of dense quasi-random graphs into suitable families of bounded degree graphs. Our proofs involve Szemerédi's regularity lemma, results on Hamilton decompositions of robust expanders, random walks, iterative absorption as well as a recent blow-up lemma for approximate decompositions.

Cite this article

Felix Joos, Jaehoon Kim, Daniela Kühn, Deryk Osthus, Optimal packings of bounded degree trees. J. Eur. Math. Soc. 21 (2019), no. 12, pp. 3573–3647

DOI 10.4171/JEMS/909