Generalization of Selberg's 3/16 theorem for geometrically finite thin subgroups of SO(n, 1)

Abstract

Let Γ be a geometrically finite thin subgroup of an arithmetic lattice Γ0 < G := SO(n, 1) and consider the congruence covers of Γ G. In the breakthrough work of Bourgain-Gamburd-Sarnak, the expansion machinery was used to establish a uniform spectral gap in the setting (G, Γ0) = (SL2(R), SL2(Z)) when the critical exponent satisfies δΓ> 12. The main applications are affine sieve for Γ-orbits and uniform resonance-free half-planes for the resolvent of the Laplacian. These results were generalized in subsequent works by Mohammadi-Oh, Oh-Winter, the author, and Edwards-Oh. Yet, the region δΓ∈ (12, n - 2] for n ≥ 3 remains to be treated when there are cusps. The purpose of this paper is to fill in this gap in the literature. The difficulty lies in working with a countably infinite coding due to the presence of cusps. In particular, we incorporate new tools to prove the Zariski density and full trace field properties of the return trajectory subgroups.