An Extension of the Hajnal–Szemerédi Theorem to Directed Graphs

An Extension of the Hajnal–Szemerédi Theorem to Directed Graphs

Hajnal and Szemerédi proved that every graph G with |G| = ks and δ(G)⩾ k(s − 1) contains k disjoint s-cliques; moreover this degree bound is optimal. We extend their theorem to directed graphs by showing that every directed graph $\vv G$ with | $\vv G$ | = ks and δ( $\vv G$ ) ⩾ 2k(s − 1) − 1 contain...

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Veröffentlicht in:Combinatorics, probability & computing probability & computing, 2015-09, Vol.24 (5), p.754-773
Hauptverfasser: CZYGRINOW, ANDRZEJ, DeBIASIO, LOUIS, KIERSTEAD, H. A., MOLLA, THEODORE
Format: Artikel
Sprache:eng
Schlagworte:
Asymptotic properties
Combinatorial analysis
Computation
Graph theory
Graphs
Optimization
Partitioning
Theorems
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Zusammenfassung:Hajnal and Szemerédi proved that every graph G with |G| = ks and δ(G)⩾ k(s − 1) contains k disjoint s-cliques; moreover this degree bound is optimal. We extend their theorem to directed graphs by showing that every directed graph $\vv G$ with | $\vv G$ | = ks and δ( $\vv G$ ) ⩾ 2k(s − 1) − 1 contains k disjoint transitive tournaments on s vertices, where δ( $\vv G$ )= min v∈V ( $\vv G$ )d −(v)+d +(v). Our result implies the Hajnal–Szemerédi theorem, and its degree bound is optimal. We also make some conjectures regarding even more general results for multigraphs and partitioning into other tournaments. One of these conjectures is supported by an asymptotic result.
ISSN:0963-5483
1469-2163
DOI:10.1017/S0963548314000716