arXiv:1606.04119 Abstract | arXiv Analytics

arXiv:1606.04119 [math.NT]Abstract References Reviews Resources

Quantum Unique Ergodicity for half-integral weight forms

Published 2016-06-13Version 1

We investigate the analogue of the Quantum Unique Ergodicity (QUE) conjecture for half-integral weight automorphic forms. Assuming the Generalized Riemann Hypothesis (GRH) we establish QUE for both half-integral weight holomorphic Hecke cusp forms for $\Gamma_0(4)$ lying in Kohnen's plus subspace and for half-integral weight Hecke Maa{\ss} cusp forms for $\Gamma_0(4)$ lying in Kohnen's plus subspace. By combining the former result along with an argument of Rudnick, it follows that under GRH the zeros of these holomorphic Hecke cusp equidistribute with respect to hyperbolic measure on $\Gamma_0(4)\backslash \mathbb H$ as the weight tends to infinity.

Comments: 61 pages

Categories: math.NT, math.DS, math.SP

Keywords: quantum unique ergodicity, half-integral weight forms, kohnens plus subspace, weight holomorphic hecke cusp forms, half-integral weight holomorphic hecke cusp

Related articles: Most relevant | Search more

arXiv:1205.5534 [math.NT] (Published 2012-05-24, updated 2013-06-09)

Bounds for Rankin--Selberg integrals and quantum unique ergodicity for powerful levels

Paul D. Nelson, Ameya Pitale, Abhishek Saha

arXiv:1209.1894 [math.NT] (Published 2012-09-10, updated 2014-10-14)

Double Dirichlet series and quantum unique ergodicity of weight 1/2 Eisenstein series

Yiannis N. Petridis, Nicole Raulf, Morten S. Risager

arXiv:math/0412083 [math.NT] (Published 2004-12-03, updated 2006-03-17)

Random Matrix Theory and the Fourier Coefficients of Half-Integral Weight Forms