Pairs in discrete lattice orbits with applications to Veech surfaces (with an appendix by Jon Chaika)

Claire Burrin; Samantha Fairchild

doi:10.4171/jems/1563

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Pairs in discrete lattice orbits with applications to Veech surfaces (with an appendix by Jon Chaika)

Claire Burrin
University of Zürich, Zürich, Switzerland
Samantha Fairchild
Eindhoven University of Technology, Eindhoven, Netherlands

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Abstract

Let $Λ_{1}$ , $Λ_{2}$ be two discrete orbits under the linear action of a lattice $Γ < SL_{2} (R)$ on the Euclidean plane. We prove a Siegel–Veech-type integral formula for the averages

x \in Λ_{1} \sum y \in Λ_{2} \sum f (x, y),

from which we derive new results for the set $S_{M}$ of holonomy vectors of saddle connections of a Veech surface $M$ . This includes an effective count for generic Borel sets with respect to linear transformations, and upper bounds on the number of pairs in $S_{M}$ with bounded determinant and on the number of pairs in $S_{M}$ with bounded distance. This last estimate is used in the appendix to prove that for almost every $(θ, ψ) \in S^{1} \times S^{1}$ the translation flows $F_{θ}^{t}$ and $F_{ψ}^{t}$ on any Veech surface $M$ are disjoint.

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Claire Burrin, Samantha Fairchild, Pairs in discrete lattice orbits with applications to Veech surfaces (with an appendix by Jon Chaika). J. Eur. Math. Soc. (2024), published online first

DOI 10.4171/JEMS/1563