将图分解为边和三角形的锐利边界

Combinatorics, Probability and Computing Pub Date : 2019-07-26 DOI:10.1017/S0963548320000358

Adam Blumenthal, Bernard Lidick'y, Yanitsa Pehova, Florian Pfender, O. Pikhurko, Jan Volec

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引用次数: 3

摘要

对于一个实常数α，设$\pi _3^\alpha (G)$为K2的数目的两倍加上α乘以K3的数目在G分解成K2和K3副本的所有边上的最小值，其中Kr表示r个顶点上的完整图。设$\pi _3^\alpha (n)$为$\pi _3^\alpha (G)$在所有图G上n个顶点的最大值。末梢功能$\pi _3^3(n)$最早由Győri和Tuza (Studia Sci)研究。数学。匈牙利。22(1987)315-320)。在这个问题的最新进展中，Král '， Lidický，马丁斯和佩霍瓦(联合)。可能吧。Comput. 28(2019) 465-472)通过标志代数证明了$\pi _3^3(n) \le (1/2 + o(1)){n^2}$。我们通过确定$\pi _3^\alpha (n)$的精确值和对于所有α和足够大的n的极值图集来扩展他们的结果。特别是，我们证明了对于α = 3, Kn和完全二部图${K_{\lfloor n/2 \rfloor,\lceil n/2 \rceil }}$是大n的唯一可能的极值例子。

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Sharp bounds for decomposing graphs into edges and triangles

Abstract For a real constant α, let $\pi _3^\alpha (G)$ be the minimum of twice the number of K2’s plus α times the number of K3’s over all edge decompositions of G into copies of K2 and K3, where Kr denotes the complete graph on r vertices. Let $\pi _3^\alpha (n)$ be the maximum of $\pi _3^\alpha (G)$ over all graphs G with n vertices. The extremal function $\pi _3^3(n)$ was first studied by Győri and Tuza (Studia Sci. Math. Hungar. 22 (1987) 315–320). In recent progress on this problem, Král’, Lidický, Martins and Pehova (Combin. Probab. Comput. 28 (2019) 465–472) proved via flag algebras that$\pi _3^3(n) \le (1/2 + o(1)){n^2}$. We extend their result by determining the exact value of $\pi _3^\alpha (n)$ and the set of extremal graphs for all α and sufficiently large n. In particular, we show for α = 3 that Kn and the complete bipartite graph ${K_{\lfloor n/2 \rfloor,\lceil n/2 \rceil }}$ are the only possible extremal examples for large n.

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