Date of Award
Summer 8-2025
Level of Access Assigned by Author
Open-Access Thesis
Degree Name
Master of Arts (MA)
Department
Mathematics
First Committee Advisor
Jane Wang
Second Committee Member
Neel Patel
Third Committee Member
Peter Stechlinski
Abstract
This paper studies tiling billiard trajectories on brick tilings using folding and interval map techniques. Inspired by triangle tiling billiards, where researchers used folding to understand reflections and dynamics, we first review how folding works in the triangle case and how trajectories can be represented as chords on a circle. Then we move to square and brick tiling. In brick tiling with rational offset p/q, we define a folding map and prove that every nonsingular trajectory is either periodic or drift periodic, with period at most 4|2q-1|. In the special case where the offset is 1/q}, we use an interval map that tracks how the trajectory moves along the edges of the squares, and we prove a sharper upper bound of 4q on the period.
Recommended Citation
Park, Soojin, "General Behavior of Brick Tiling Billiards" (2025). Electronic Theses and Dissertations. 4263.
https://digitalcommons.library.umaine.edu/etd/4263