Schwarz triangle mappings and Teichm\"uller curves: the Veech-Ward-Bouw-M\"oller curves

Abstract

We study a family of Teichm\"uller curves T(n,m) constructed by Bouw and M\"oller, and previously by Veech and Ward in the cases n=2,3. We simplify the proof that T(n,m) is a Teichm\"uller curve, avoiding the use M\"oller's characterization of Teichm\"uller curves in terms of maximally Higgs bundles. Our key tool is a description of the period mapping of T(n,m) in terms of Schwarz triangle mappings. We prove that T(n,m) is always generated by Hooper's lattice surface with semiregular polygon decomposition. We compute Lyapunov exponents, and determine algebraic primitivity in all cases. We show that frequently, every point (Riemann surface) on T(n,m) covers some point on some distinct T(n',m'). The T(n,m) arise as fiberwise quotients of families of abelian covers of CP1 branched over four points. These covers of CP1 can be considered as abelian parallelogram-tiled surfaces, and this viewpoint facilitates much of our study.