Extremality of the Rotation Quasimorphism on the Modular Group

• Main Author: Louwsma, Joel Ryan
• Format: Others
• Language: en
• Published: 2011
• Online Access: https://thesis.library.caltech.edu/5807/1/Louwsma_Thesis.pdf; Louwsma, Joel Ryan (2011) Extremality of the Rotation Quasimorphism on the Modular Group. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/0Y6J-VP31. https://resolver.caltech.edu/CaltechTHESIS:05132010-155930760 <https://resolver.caltech.edu/CaltechTHESIS:05132010-155930760>

<p>For any element A of the modular group PSL(2,Z), it follows from work of Bavard that scl(A) is greater than or equal to rot(A)/2, where scl denotes stable commutator length and rot denotes the rotation quasimorphism. Sometimes this bound is sharp, and sometimes it is not. We study for which elements A in PSL(2,Z) the rotation quasimorphism is extremal in the sense that scl(A)=rot(A)/2. First, we explain how to compute stable commutator length in the modular group, which allows us to experimentally determine whether the rotation quasimorphism is extremal for a given A. Then we describe some experimental results based on data from these computations.</p> <p>Our main theorem is the following: for any element of the modular group, the product of this element with a sufficiently large power of a parabolic element is an element for which the rotation quasimorphism is extremal. We prove this theorem using a geometric approach. It follows from work of Calegari that the rotation quasimorphism is extremal for a hyperbolic element of the modular group if and only if the corresponding geodesic on the modular surface virtually bounds an immersed surface. We explicitly construct immersed orbifolds in the modular surface, thereby verifying this geometric condition for appropriate geodesics. Our results generalize to the 3-strand braid group and to arbitrary Hecke triangle groups.</p>