Tight Hamilton cycles in cherry-quasirandom 3-uniform hypergraphs

Elad Aigner-Horev; Gil Levy

doi:10.1017/S0963548320000486

Tight Hamilton cycles in cherry-quasirandom 3-uniform hypergraphs

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Abstract

We employ the absorbing-path method in order to prove two results regarding the emergence of tight Hamilton cycles in the so-called two-path or cherry-quasirandom 3-graphs. Our first result asserts that for any fixed real α > 0, cherry-quasirandom 3-graphs of sufficiently large order n having minimum 2-degree at least α(n-2) have a tight Hamilton cycle. Our second result concerns the minimum 1-degree sufficient for such 3-graphs to have a tight Hamilton cycle. Roughly speaking, we prove that for every d, α > 0 satisfying d + α > 1, any sufficiently large n-vertex such 3-graph H of density d and minimum 1-degree at least has a tight Hamilton cycle.

Original language	American English
Pages (from-to)	412-443
Number of pages	32
Journal	Combinatorics Probability and Computing
Volume	30
Issue number	3
DOIs	https://doi.org/10.1017/S0963548320000486
State	Published - 12 May 2021
Externally published	Yes

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Statistics and Probability
Computational Theory and Mathematics
Applied Mathematics

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10.1017/S0963548320000486

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title = "Tight Hamilton cycles in cherry-quasirandom 3-uniform hypergraphs",

abstract = "We employ the absorbing-path method in order to prove two results regarding the emergence of tight Hamilton cycles in the so-called two-path or cherry-quasirandom 3-graphs. Our first result asserts that for any fixed real α > 0, cherry-quasirandom 3-graphs of sufficiently large order n having minimum 2-degree at least α(n-2) have a tight Hamilton cycle. Our second result concerns the minimum 1-degree sufficient for such 3-graphs to have a tight Hamilton cycle. Roughly speaking, we prove that for every d, α > 0 satisfying d + α > 1, any sufficiently large n-vertex such 3-graph H of density d and minimum 1-degree at least has a tight Hamilton cycle.",

author = "Elad Aigner-Horev and Gil Levy",

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AU - Aigner-Horev, Elad

AU - Levy, Gil

PY - 2021/5/12

Y1 - 2021/5/12

N2 - We employ the absorbing-path method in order to prove two results regarding the emergence of tight Hamilton cycles in the so-called two-path or cherry-quasirandom 3-graphs. Our first result asserts that for any fixed real α > 0, cherry-quasirandom 3-graphs of sufficiently large order n having minimum 2-degree at least α(n-2) have a tight Hamilton cycle. Our second result concerns the minimum 1-degree sufficient for such 3-graphs to have a tight Hamilton cycle. Roughly speaking, we prove that for every d, α > 0 satisfying d + α > 1, any sufficiently large n-vertex such 3-graph H of density d and minimum 1-degree at least has a tight Hamilton cycle.

AB - We employ the absorbing-path method in order to prove two results regarding the emergence of tight Hamilton cycles in the so-called two-path or cherry-quasirandom 3-graphs. Our first result asserts that for any fixed real α > 0, cherry-quasirandom 3-graphs of sufficiently large order n having minimum 2-degree at least α(n-2) have a tight Hamilton cycle. Our second result concerns the minimum 1-degree sufficient for such 3-graphs to have a tight Hamilton cycle. Roughly speaking, we prove that for every d, α > 0 satisfying d + α > 1, any sufficiently large n-vertex such 3-graph H of density d and minimum 1-degree at least has a tight Hamilton cycle.

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DO - 10.1017/S0963548320000486

M3 - Article

SN - 0963-5483

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SP - 412

EP - 443

JO - Combinatorics Probability and Computing

JF - Combinatorics Probability and Computing

IS - 3

ER -

Tight Hamilton cycles in cherry-quasirandom 3-uniform hypergraphs

Abstract

All Science Journal Classification (ASJC) codes

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