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High-order Phase Transition in Random Hy...

Lu, Linyuan...

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High-order Phase Transition in Random Hypergrpahs by Lu, Linyuan ( Author )

Content Provider	Lemonjar Open Access
Publisher	Australian National University
Publication Date	06-09-2023
Summary	In this paper, we study the high-order phase transition in random $r$-uniform hypergraphs. For a positive integer $n$ and a real $p\in [0,1]$, let $H:=H^r(n,p)$ be the random $r$-uniform hypergraph with vertex set $[n]$, where each $r$-set is selected as an edge with probability $p$ independently randomly. For $1\leq s \leq r-1$ and two $s$-sets $S$ and $S'$, we say $S$ is connected to $S'$ if there is a sequence of alternating $s$-sets and edges $S_0,F_1,S_1,F_2, \ldots, F_k, S_k$ such that $S_0,S_1,\ldots, S_k$ are $s$-sets, $S_0=S$, $S_k=S'$, $F_1,F_2,\ldots, F_k$ are edges of $H$, and $S_{i-1}\cup S_i\subseteq F_i$ for each $1\leq i\leq k$. This is an equivalence relation over the family of all $s$-sets ${[n]\choose s}$ and results in a partition: ${V\choose s}=\cup_i C_i$. Each $C_i$ is called an { $s$-th-order} connected component and a component $C_i$ is {\em giant} if $\|C_i\|=\Theta(n^s)$. We prove that the sharp threshold of the existence of the $s$-th-order giant connected components in $H^r(n,p)$ is $\frac{1}{\big({r\choose s}-1\big){n\choose r-s}}$. Let $c={n\choose r-s}p$. If $c$ is a constant and $c<\tfrac{1}{\binom{r}{s}-1}$, then with high probability, all $s$-th-order connected components have size $O(\ln n)$. If $c$ is a constant and $c > \tfrac{1}{\binom{r}{s}-1}$, then with high probability, $H^r(n,p)$ has a unique giant connected $s$-th-order component and its size is $(z+o(1)){n\choose s}$, where $$z=1-\sum_{j=0}^\infty \frac{\left({r\choose s}j -j+1 \right)^{j-1}}{j!}c^je^{-c\left({r\choose s}j -j+1\right)}.$$
ISBN	-
Item Type	Article
File Type	pdf
File Size	29.34 KB
Language	English
Subjects	-
Unlimited	MYR 0.01
Total read	-
URL	http://arxiv.org/abs/1409.1174

Citation

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AMA 11th EditionReferences

Lu, Linyuan. High-order Phase Transition in Random Hypergrpahs. Australian National University. September 06, 2023. Accessed September 20, 2024. https://online.provdatabase.com/cite/23479

APA 7th EditionReferences

Lu, Linyuan. (2023). High-order Phase Transition in Random Hypergrpahs. Australian National University. https://online.provdatabase.com/cite/23479

Chicago 17th EditionReferences

Lu, Linyuan. High-order Phase Transition in Random Hypergrpahs. Australian National University. 2023. https://online.provdatabase.com/cite/23479

HarvardReferences

Lu, Linyuan. (2023). High-order Phase Transition in Random Hypergrpahs. [Online]. Australian National University. Available from: https://online.provdatabase.com/cite/23479. (Accessed 20 September 2024).

Harvard AustraliaReferences

Lu, Linyuan, 2023, High-order Phase Transition in Random Hypergrpahs, Australian National University, viewed 20 September 2024, <https://online.provdatabase.com/cite/23479>

MLA 9th EditionWorks Cited

Lu, Linyuan. High-order Phase Transition in Random Hypergrpahs. Australian National University, 2023. PROV Database, https://online.provdatabase.com/cite/23479.

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