Yury Person scite author profile

We study sufficient ℓ-degree (1 ≤ ℓ < k) conditions for the appearance of perfect and nearly perfect matchings in k-uniform hypergraphs. In particular, we obtain a minimum vertex degree condition (ℓ = 1) for 3-uniform hypergraphs, which is approximately tight, by showing that every 3-uniform hypergraph on n vertices with minimum vertex degree at least (5/9 + o(1))`n 2ć ontains a perfect matching.

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Weak quasi‐randomness for uniform hypergraphs

Conlon

Hàn

Person

et al. 2011

Random Struct Algorithms

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ABSTRACT:We study quasi-random properties of k-uniform hypergraphs. Our central notion is uniform edge distribution with respect to large vertex sets. We will find several equivalent characterisations of this property and our work can be viewed as an extension of the well known Chung-Graham-Wilson theorem for quasi-random graphs.Moreover, let K k be the complete graph on k vertices and M(k) the line graph of the graph of the k-dimensional hypercube. We will show that the pair of graphs (K k , M(k)) has the property that if the number of copies of both K k and M(k) in another graph G are as expected in the random graph of density d, then G is quasi-random (in the sense of the Chung-Graham-Wilson theorem) with density close to d.

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Powers of Hamilton cycles in pseudorandom graphs

et al. 2016

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Abstract. We study the appearance of powers of Hamilton cycles in pseudorandom graphs, using the following comparatively weak pseudorandomness notion. A graph G is (ε, p, k, ℓ)-pseudorandom if for all disjoint X and Y ⊆ V (G) with |X| ≥ εp k n and |Y | ≥ εp ℓ n we have e(X, Y ) = (1 ± ε)p|X||Y |. We prove that for all β > 0 there is an ε > 0 such that an (ε, p, 1, 2)-pseudorandom graph on n vertices with minimum degree at least βpn contains the square of a Hamilton cycle. In particular, this implies that (n, d, λ)-graphs with λ ≪ d 5/2 n −3/2 contain the square of a Hamilton cycle, and thus a triangle factor if n is a multiple of 3. This improves on a result of Krivelevich, Sudakov and Szabó [Triangle factors in sparse pseudo-random graphs, Combinatorica 24 (2004), no. 3, 403-426].We also extend our result to higher powers of Hamilton cycles and establish corresponding counting versions.

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Tight Hamilton cycles in random hypergraphs

Allen

Böttcher

Kohayakawa

et al. 2013

Random Struct. Alg.

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Abstract. We give an algorithmic proof for the existence of tight Hamilton cycles in a random r-uniform hypergraph with edge probability p = n −1+ε for every ε > 0. This partly answers a question of Dudek and Frieze [Random Structures Algorithms], who used a second moment method to show that tight Hamilton cycles exist even for p = ω(n)/n (r ≥ 3) where ω(n) → ∞ arbitrary slowly, and for p = (e + o(1))/n (r ≥ 4).The method we develop for proving our result applies to related problems as well.

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Quasirandomness in Hypergraphs

Aigner-Horev

Conlon

Hàn

et al. 2018

Electron. J. Combin.

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An $n$-vertex graph $G$ of edge density $p$ is considered to be quasirandom if it shares several important properties with the random graph $G(n,p)$. A well-known theorem of Chung, Graham and Wilson states that many such `typical' properties are asymptotically equivalent and, thus, a graph $G$ possessing one such property automatically satisfies the others.In recent years, work in this area has focused on uncovering more quasirandom graph properties and on extending the known results to other discrete structures. In the context of hypergraphs, however, one may consider several different notions of quasirandomness. A complete description of these notions has been provided recently by Towsner, who proved several central equivalences using an analytic framework. We give short and purely combinatorial proofs of the main equivalences in Towsner's result.

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Yury Person

On Perfect Matchings in Uniform Hypergraphs with Large Minimum Vertex Degree

Weak quasi‐randomness for uniform hypergraphs

Powers of Hamilton cycles in pseudorandom graphs

Tight Hamilton cycles in random hypergraphs

Quasirandomness in Hypergraphs

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