Percolation on High-dimensional Product Graphs

Joshua Erde; Mihyun Kang; Michael Krivelevich; Sahar Diskin

Percolation on High-dimensional Product Graphs

Joshua Erde, Mihyun Kang, Michael Krivelevich, Sahar Diskin

Institute of Discrete Mathematics (5050)

Research output: Working paper

Abstract

We consider percolation on high-dimensional product graphs, where the base graphs are regular and of bounded order. In the subcritical regime, we show that typically the largest component is of order logarithmic in the number of vertices. In the supercritical regime, our main result recovers the sharp asymptotic of the order of the largest component, and shows that all the other components are typically of order logarithmic in the number of vertices. In particular, we show that this phase transition is quantitatively similar to the one of the binomial random graph.
This generalises the results of Ajtai, Komlós, and Szemerédi and of Bollobás, Kohayakawa, and Łuczak who showed that the d-dimensional hypercube, which is the d-fold Cartesian product of an edge, undergoes a phase transition quantitatively similar to the one of the binomial random graph.

Original language	English
Publication status	Published - 2022

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https://arxiv.org/abs/2209.03722

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title = "Percolation on High-dimensional Product Graphs",

abstract = "We consider percolation on high-dimensional product graphs, where the base graphs are regular and of bounded order. In the subcritical regime, we show that typically the largest component is of order logarithmic in the number of vertices. In the supercritical regime, our main result recovers the sharp asymptotic of the order of the largest component, and shows that all the other components are typically of order logarithmic in the number of vertices. In particular, we show that this phase transition is quantitatively similar to the one of the binomial random graph.This generalises the results of Ajtai, Koml{\'o}s, and Szemer{\'e}di and of Bollob{\'a}s, Kohayakawa, and {\L}uczak who showed that the d-dimensional hypercube, which is the d-fold Cartesian product of an edge, undergoes a phase transition quantitatively similar to the one of the binomial random graph.",

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T1 - Percolation on High-dimensional Product Graphs

AU - Erde, Joshua

AU - Kang, Mihyun

AU - Krivelevich, Michael

AU - Diskin, Sahar

PY - 2022

Y1 - 2022

N2 - We consider percolation on high-dimensional product graphs, where the base graphs are regular and of bounded order. In the subcritical regime, we show that typically the largest component is of order logarithmic in the number of vertices. In the supercritical regime, our main result recovers the sharp asymptotic of the order of the largest component, and shows that all the other components are typically of order logarithmic in the number of vertices. In particular, we show that this phase transition is quantitatively similar to the one of the binomial random graph.This generalises the results of Ajtai, Komlós, and Szemerédi and of Bollobás, Kohayakawa, and Łuczak who showed that the d-dimensional hypercube, which is the d-fold Cartesian product of an edge, undergoes a phase transition quantitatively similar to the one of the binomial random graph.

AB - We consider percolation on high-dimensional product graphs, where the base graphs are regular and of bounded order. In the subcritical regime, we show that typically the largest component is of order logarithmic in the number of vertices. In the supercritical regime, our main result recovers the sharp asymptotic of the order of the largest component, and shows that all the other components are typically of order logarithmic in the number of vertices. In particular, we show that this phase transition is quantitatively similar to the one of the binomial random graph.This generalises the results of Ajtai, Komlós, and Szemerédi and of Bollobás, Kohayakawa, and Łuczak who showed that the d-dimensional hypercube, which is the d-fold Cartesian product of an edge, undergoes a phase transition quantitatively similar to the one of the binomial random graph.

M3 - Working paper

BT - Percolation on High-dimensional Product Graphs

ER -

Percolation on High-dimensional Product Graphs

Abstract

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