On the Density of Low Lying Zeros of a Large Family of Automorphic L-functions

Abstract

Under the generalized Riemann Hypothesis (GRH), Baluyot, Chandee, and Li nearly doubled the range in which the density of low lying zeros predicted by Katz and Sarnak is known to hold for a large family of automorphic L-functions with orthogonal symmetry. We generalize their main techniques to the study of higher centered moments of the one-level density of this family, leading to better results on the behavior near the central point. Numerous technical obstructions emerge that are not present in the one-level density. Averaging over the level of the forms and assuming GRH, we prove the density predicted by Katz and Sarnak holds for the n-th centered moments for test functions whose Fourier transform is compactly supported in (-σ, σ) for σ~=~\3/2(n-1), 4/(2n-12 n)\. For n=3, our results improve the previously best known σ=2/3 to σ=3/4. We also prove the two-level density agrees with the Katz-Sarnak density conjecture for test functions whose Fourier transform is compactly supported in σ1 = 3/2 and σ2 = 5/6, respectively, extending the previous best known sum of supports σ1 + σ2 = 2. This work is the first evidence of an interesting new phenomenon: by taking different test functions, we are able to extend the range in which the Katz-Sarnak density predictions hold. The techniques we develop can be applied to understanding quantities related to this family containing sums over multiple primes.