Heat kernel approach for sup-norm bounds for cusp forms of integral and half integral weight (1506.08497v2)

Abstract: In this article, using the heat kernel approach from \cite{bouche}, we derive sup-norm bounds for cusp forms of integral and half integral weight. Let $\Gamma\subset \mathrm{PSL}{2}(\mathbb{R})$ be a cocompact Fuchsian subgroup of first kind. For $k\in\frac{1}{2}\mathbb{Z}$ (or $k\in 2\mathbb{Z}$), let $S^{k}(\Gamma)$ denote the complex vector space of weight-$k$ cusp forms. Let $\lbrace f{1},\ldots,f_{j_{k}} \rbrace$ denote an orthonormal basis of $S^{k}(\Gamma)$. In this article, we show that as $k\rightarrow \infty,$ the sup-norm for $\sum_{i=1}^{j_{k}}y^{k}|f_{i}(z)|^{2}$ is bounded by $O(k)$, where the implied constant is independent on $\Gamma$. Furthermore, using results from \cite{berman}, we extend these results to the case when $\Gamma$ is cofinite.