Ivan Aidun scite author profile

Ivan Aidun

5Publications

31Citation Statements Received

125Citation Statements Given

How they've been cited

How they cite others

122

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University of Wisconsin–Madison

Publications

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On the Gonality of Cartesian Products of Graphs

Aidun¹,

Morrison

2020

Electron. J. Combin.

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In this paper we provide the first systematic treatment of Cartesian products of graphs and their divisorial gonality, which is a tropical version of the gonality of an algebraic curve defined in terms of chip-firing. We prove an upper bound on the gonality of the Cartesian product of any two graphs, and determine instances where this bound holds with equality, including for the $m\times n$ rook's graph with $\min\{m,n\}\leq 5$. We use our upper bound to prove that Baker's gonality conjecture holds for the Cartesian product of any two graphs with two or more vertices each, and we determine precisely which nontrivial product graphs have gonality equal to Baker's conjectural upper bound. We also extend some of our results to metric graphs.

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Treewidth and gonality of glued grid graphs

Aidun

Dean

Morrison

et al. 2020

Discrete Applied Mathematics

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Graphs of gonality three

Aidun¹,

Dean²,

Morrison³

et al. 2019

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In 2013, Chan classified all metric hyperelliptic graphs, proving that divisorial gonality and geometric gonality are equivalent in the hyperelliptic case. We show that such a classification extends to combinatorial graphs of divisorial gonality three, under certain edge-and vertex-connectivity assumptions. We also give a construction for graphs of divisorial gonality three, and provide conditions for determining when a graph is not of divisorial gonality three.

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On the gonality of Cartesian products of graphs

Aidun¹,

Morrison²

2019

Preprint

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In this paper we study Cartesian products of graphs and their divisorial gonality, which is a tropical version of the gonality of an algebraic curve. We present an upper bound on the gonality of the Cartesian product of any two graphs, and provide instances where this bound holds with equality, including for the m × n rook's graph with min{m, n} ≤ 5. We use our upper bound to prove that Baker's gonality conjecture holds for the Cartesian product of any two graphs with two or more vertices each, and we determine precisely which nontrivial product graphs have gonality equal to Baker's conjectural upper bound.

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Gonality sequences of graphs

Aidun¹,

Dean²,

Morrison³

et al. 2020

Preprint

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To any graph we associate a sequence of integers called the gonality sequence of the graph, consisting of the minimum degrees of divisors of increasing rank on the graph. This is a tropical analogue of the gonality sequence of an algebraic curve. We study gonality sequences for graphs of low genus, proving that for genus up to 5, the gonality sequence is determined by the genus and the first gonality. We then prove that any reasonable pair of first two gonalities is achieved by some graph. We also develop a modified version of Dhar's burning algorithm more suited for studying higher gonalities.

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Ivan Aidun

On the Gonality of Cartesian Products of Graphs

Treewidth and gonality of glued grid graphs

Graphs of gonality three

On the gonality of Cartesian products of graphs

Gonality sequences of graphs

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