A blow-up lemma for approximate decompositions

Jaehoon Kim; Daniela Kuhn; Deryk Osthus; Mykhaylo Tyomkyn

doi:10.1090/tran/7411

A blow-up lemma for approximate decompositions

Jaehoon Kim, Daniela Kuhn, Deryk Osthus, Mykhaylo Tyomkyn

Mathematics

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12 Citations (Scopus)

159 Downloads (Pure)

Abstract

We develop a new method for constructing approximate decompositions of dense graphs into sparse graphs and apply it to long-standing decomposition problems. For instance, our results imply the following. Let G be a quasi-random n-vertex graph and suppose H1,…, Hs are bounded degree n-vertex graphs with Σ ^s _i=1 e(H _i ) ≤ (1 - o(1))e(G). Then H ₁ ,…, H _s can be packed edge-disjointly into G. The case when G is the complete graph Kn implies an approximate version of the tree packing conjecture of Gyárfás and Lehel for bounded degree trees, and of the Oberwolfach problem. We provide a more general version of the above approximate decomposition result which can be applied to super-regular graphs and thus can be combined with Szemerédi’s regularity lemma. In particular our result can be viewed as an extension of the classical blow-up lemma of Komlós, Sárkőzy, and Szemerédi to the setting of approximate decompositions.

Original language	English
Pages (from-to)	4655-4742
Number of pages	88
Journal	Transactions of the American Mathematical Society
Volume	371
Issue number	7
Early online date	21 Dec 2018
DOIs	https://doi.org/10.1090/tran/7411
Publication status	Published - 1 Apr 2019

ASJC Scopus subject areas

Mathematics(all)
Applied Mathematics

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10.1090/tran/7411

Kim_et_al_A_blow-up_lemma_Transactions_of_the_American_Mathematical_Society_2018
Checked for eligibility: 26/09/2017 First published in Transactions of the American Mathematical Society, published by the American Mathematical Society. © 2018 American Mathematical Society. Available online at: https://doi.org/10.1090/tran/7411
Accepted author manuscript, 969 KBLicence: None: All rights reserved

Cite this

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title = "A blow-up lemma for approximate decompositions",

abstract = "We develop a new method for constructing approximate decompositions of dense graphs into sparse graphs and apply it to long-standing decomposition problems. For instance, our results imply the following. Let G be a quasi-random n-vertex graph and suppose H1,…, Hs are bounded degree n-vertex graphs with Σ s i=1 e(H i ) ≤ (1 - o(1))e(G). Then H 1 ,…, H s can be packed edge-disjointly into G. The case when G is the complete graph Kn implies an approximate version of the tree packing conjecture of Gy{\'a}rf{\'a}s and Lehel for bounded degree trees, and of the Oberwolfach problem. We provide a more general version of the above approximate decomposition result which can be applied to super-regular graphs and thus can be combined with Szemer{\'e}di{\textquoteright}s regularity lemma. In particular our result can be viewed as an extension of the classical blow-up lemma of Koml{\'o}s, S{\'a}rk{\H o}zy, and Szemer{\'e}di to the setting of approximate decompositions. ",

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AB - We develop a new method for constructing approximate decompositions of dense graphs into sparse graphs and apply it to long-standing decomposition problems. For instance, our results imply the following. Let G be a quasi-random n-vertex graph and suppose H1,…, Hs are bounded degree n-vertex graphs with Σ s i=1 e(H i ) ≤ (1 - o(1))e(G). Then H 1 ,…, H s can be packed edge-disjointly into G. The case when G is the complete graph Kn implies an approximate version of the tree packing conjecture of Gyárfás and Lehel for bounded degree trees, and of the Oberwolfach problem. We provide a more general version of the above approximate decomposition result which can be applied to super-regular graphs and thus can be combined with Szemerédi’s regularity lemma. In particular our result can be viewed as an extension of the classical blow-up lemma of Komlós, Sárkőzy, and Szemerédi to the setting of approximate decompositions.

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A blow-up lemma for approximate decompositions

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