The Existence of Designs via Iterative Absorption: Hypergraph F-Designs for Arbitrary F

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Abstract

We solve the existence problem for F-designs for arbitrary r-uniform hypergraphs F. This implies that given any r-uniform hypergraph F, the trivially necessary divisibility conditions are sufficient to guarantee a decomposition of any sufficiently large complete r-uniform hypergraph into edge-disjoint copies of F, which answers a question asked e.g. by Keevash. The graph case r = 2 was proved by Wilson in 1975 and forms one of the cornerstones of design theory. The case when F is complete corresponds to the existence of block designs, a problem going back to the 19th century, which was recently settled by Keevash. In particular, our argument provides a new proof of the existence of block designs, based on iterative absorption (which employs purely probabilistic and combinatorial methods). Our main result concerns decompositions of hypergraphs whose clique distribution fulfills certain regularity constraints. Our argument allows us to employ a 'regularity boosting' process which frequently enables us to satisfy these constraints even if the clique distribution of the original hypergraph does not satisfy them. This enables us to go significantly beyond the setting of quasirandom hypergraphs considered by Keevash. In particular, we obtain a resilience version and a decomposition result for hypergraphs of large minimum degree.

Original languageEnglish
Pages (from-to)1-144
Number of pages144
JournalMemoirs of the American Mathematical Society
Volume284
Issue number1406
DOIs
Publication statusPublished - 21 Mar 2023

Bibliographical note

ISBNs: 9781470460242 (print); 9781470474447 (online)

Publisher Copyright:
© 2023 American Mathematical Society.

Keywords

  • Block designs
  • decomposition
  • iterative absorption

ASJC Scopus subject areas

  • General Mathematics
  • Applied Mathematics

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