Natasha Morrison scite author profile

Natasha Morrison

5Publications

119Citation Statements Received

118Citation Statements Given

How they've been cited

115

How they cite others

118

Affiliations

University of Victoria, University of Cambridge, University of Oxford

Publications

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Extremal Bounds for Bootstrap Percolation in the Hypercube

Morrison

Noel

2017

Electronic Notes in Discrete Mathematics

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The r-neighbour bootstrap percolation process on a graph G starts with an initial set A 0 of "infected" vertices and, at each step of the process, a healthy vertex becomes infected if it has at least r infected neighbours (once a vertex becomes infected, it remains infected forever). If every vertex of G eventually becomes infected, then we say that A 0 percolates.We prove a conjecture of Balogh and Bollobás which says that, for fixed r and d → ∞, every percolating set in the d-dimensional hypercube has cardinality at least 1+o(1) r d r−1 . We also prove an analogous result for multidimensional rectangular grids. Our proofs exploit a connection between bootstrap percolation and a related process, known as weak saturation. In addition, we improve on the best known upper bound for the minimum size of a percolating set in the hypercube. In particular, when r = 3, we prove that the minimum cardinality of a percolating set in the d-dimensional hypercube is d(d+3) 6 + 1 for all d ≥ 3.

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On the singularity of random symmetric matrices

et al. 2021

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The size‐Ramsey number of powers of paths

Clemens

Jenssen

Kohayakawa

et al. 2018

Journal of Graph Theory

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Given graphs G and H and a positive integer q, say that G is q‐Ramsey for H, denoted G→(H)q, if every q‐coloring of the edges of G contains a monochromatic copy of H. The size‐Ramsey number truerˆ(H) of a graph H is defined to be truerˆ(H)=min{∣E(G)∣:G→(H)2}. Answering a question of Conlon, we prove that, for every fixed k, we have truerˆ(Pnk)=O(n), where Pnk is the kth power of the n‐vertex path Pn (ie, the graph with vertex set V(Pn) and all edges {u,v} such that the distance between u and v in Pn is at most k). Our proof is probabilistic, but can also be made constructive.

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On Saturated $k$-Sperner Systems

Morrison

Noel

Scott

2014

Electron. J. Combin.

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Given a set X, a collection F ⊆ P(X) is said to be k-Sperner if it does not contain a chain of length k + 1 under set inclusion and it is saturated if it is maximal with respect to this property. Gerbner et al. [11] conjectured that, if |X| is sufficiently large with respect to k, then the minimum size of a saturated k-Sperner system F ⊆ P(X) is 2 k−1 . We disprove this conjecture by showing that there exists ε > 0 such that for every k and |X| ≥ n 0 (k) there exists a saturated k-Sperner system F ⊆ P(X) with cardinality at most 2 (1−ε)k .A collection F ⊆ P(X) is said to be an oversaturated k-Sperner system if, for every S ∈ P(X) \ F, F ∪ {S} contains more chains of length k + 1 than F. Gerbner et al. [11] proved that, if |X| ≥ k, then the smallest such collection contains between 2 k/2−1 and O log k k 2 k elements. We show that if |X| ≥ k 2 + k, then the lower bound is best possible, up to a polynomial factor.

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Hypergraph Lagrangians I: the Frankl-Füredi conjecture is false

Gruslys¹,

Letzter²,

Morrison³

2018

Preprint

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