2024 The Hodge Laplacian operator on 1-forms on $\mathbb{H}$ and 1-form $E_\mathfrak{a}^1$
Otto Romero
Funct. Approx. Comment. Math. Advance Publication 1-18 (2024). DOI: 10.7169/facm/2144

Abstract

As is well known, we can average the eigenfunction $y^s$ of the hyperbolic Laplacian on the hyperbolic plane by $\Gamma$ a lattice in $\mathbf{SL}(2,\mathbb{R})$ to obtain an automorphic form: the non-holomorphic Eisenstein series $E_\mathfrak{a}(z,s)$. In this note, we choose a particular eigenfunction $y^s dx$ of the Hodge-Laplace operator for 1-forms on the hyperbolic plane $\mathbb{H}$. We can average $y^s dx$ by $\Gamma$ to define a 1-form $E_\mathfrak{a}^1 \big( (z,v), s \big)$. We shall prove that $E_\mathfrak{a}^1$ admits a Fourier expansion and calculates the corresponding coefficients. Also, we evaluate the integral $\int_{\gamma} E_\mathfrak{a}^1$ for when $\gamma$ is a lifting of horocycles and closed geodesics in the unit tangent bundle. Finally, we will obtain an analog to the Rankin-Selberg method for $E_\mathfrak{a}^1$ via horocycles.

Citation

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Otto Romero. "The Hodge Laplacian operator on 1-forms on $\mathbb{H}$ and 1-form $E_\mathfrak{a}^1$." Funct. Approx. Comment. Math. Advance Publication 1 - 18, 2024. https://doi.org/10.7169/facm/2144

Information

Published: 2024
First available in Project Euclid: 22 May 2024

Digital Object Identifier: 10.7169/facm/2144

Subjects:
Primary: 11M36
Secondary: 30F35

Keywords: Eisenstein series , Hodge Laplacian

Rights: Copyright © 2024 Adam Mickiewicz University

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