Repulsion of Zeros Close to s = 1/2 for Modular Form L-Functions

Authors

DOI:

https://doi.org/10.56994/JXM.002.001.001

Keywords:

Modular Forms, L-Functions, Random Matrix Theory

Abstract

In this paper, we present results of several experiments in which we model the repulsion of low-lying zeros of L-functions using random matrix theory. Previous work has typically focused on the twists of L-functions associated to elliptic curves and on families that can be modeled by unitary and orthogonal matrices. We consider families of L-functions of modular forms of weight greater than 2 and we consider families that can be modeled by symplectic matrices. Additionally, we explore a model for low-lying zeros of twists that incorporates a discretization arising from the Kohnen-Zagier theorem. Overall, our numeric evidence supports the expectation that the repulsion of zeros decreases as the conductor of the twist increases. Surprisingly, though, it appears that using the discretization that arises from the Kohnen-Zagier theorem does not model the data better than if the discretization is not used for forms of weight 4 or above.

Cover page of JXM volume 2 issue 1

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Published

03/01/2026

How to Cite

Coloma, N., Espericueta Sandoval, M., Lopez, E., Ponce, F., Rama, G., Ryan, N. C., & Vargas-Altamirano, A. (2026). Repulsion of Zeros Close to s = 1/2 for Modular Form L-Functions. Journal of Experimental Mathematics, 2(1), 1–20. https://doi.org/10.56994/JXM.002.001.001

Issue

Vol. 2 No. 1 (2026): Volume 2, Issue 1

Section

Articles

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Copyright (c) 2026 Nicol´as Coloma, Maria Espericueta Sandoval, Erika Lopez, Francisco Ponce, Gustavo Rama, Nathan C. Ryan, and Alejandro Vargas-Altamirano

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.