Mark Pollicott, Polina Vytnova
Published 2022-04-18Version 1
In the present paper we give a simple mathematical foundation for describing the zeros of the Selberg zeta functions $Z_X$ for certain very symmetric infinite area surfaces $X$. For definiteness, we consider the case of three funneled surfaces. We show that the zeta function is a complex almost periodic function which can be approximated by complex trigonometric polynomials on large domains (in Theorem 4.2). As our main application, we provide an explanation of the striking empirical results of Borthwick (arXiv:1305.4850) (in Theorem 1.5) in terms of convergence of the affinely scaled zero sets to standard curves $\mathcal C$.
Comments: 36 pages, 11 Figures
Journal: Geometriae Dedicata (2019) 201:155-186
Period functions for Hecke triangle groups, and the Selberg zeta function as a Fredholm determinant
A thermodynamic formalism approach to the Selberg zeta function for Hecke triangle surfaces of infinite area
Selberg zeta functions, cuspidal accelerations, and existence of strict transfer operator approaches
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