Eisenstein series and theta functions on the metaplectic group

This chapter reviews some basic results on Weil representations, theta liftings and Eisenstein series. In particular, it introduces a proof of the Waldspurger formula. The theory of Weil representation is applied to an integral representation of the Rankin–Selberg L-function and to a proof of Waldspurger's central value formula. The chapter mostly follows Waldspurger's treatment with some modifications including Kudla's construction of incoherent Eisenstein series. It first describes the classical theory of Weil representation for an orthogonal space over a local field before discussing theta functions, the Siegel–Weil formula, and normalized local Shimizu lifting. The main result is an integral formula for the L-series using a kernel function. The Waldspurger formula is a direct consequence of the Siegel–Weil formula. After presenting the proof of Waldspurger formula, the chapter lists some computational results on three types of incoherent Eisenstein series.

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Eisenstein Series Identities Involving the Borweins' Cubic Theta Functions

Journal of Applied Mathematics ◽

10.1155/2012/181264 ◽

2012 ◽

Vol 2012 ◽

pp. 1-14 ◽

Cited By ~ 1

Author(s):

Ernest X. W. Xia ◽

Olivia X. M. Yao

Keyword(s):

Eisenstein Series ◽

Theta Functions ◽

Elliptic Functions ◽

The Other ◽

Fundamental Theory ◽

Convolution Sums

Based on the theories of Ramanujan's elliptic functions and the (p,k)-parametrization of theta functions due to Alaca et al. (2006, 2007, 2006) we derive certain Eisenstein series identities involving the Borweins' cubic theta functions with the help of the computer. Some of these identities were proved by Liu based on the fundamental theory of elliptic functions and some of them may be new. One side of each identity involves Eisenstein series, the other products of the Borweins' cubic theta functions. As applications, we evaluate some convolution sums. These evaluations are different from the formulas given by Alaca et al.

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DIFFERENTIAL EQUATIONS FOR CUBIC THETA FUNCTIONS

International Journal of Number Theory ◽

10.1142/s1793042111004873 ◽

2011 ◽

Vol 07 (07) ◽

pp. 1945-1957 ◽

Cited By ~ 5

Author(s):

TIM HUBER

Keyword(s):

Differential Equations ◽

Eisenstein Series ◽

Theta Function ◽

Modular Group ◽

Short Proof ◽

Nonlinear Differential Equations ◽

Theta Functions ◽

Coupled Systems ◽

Function Identity ◽

Theta Function Identity

We show that the cubic theta functions satisfy two distinct coupled systems of nonlinear differential equations. The resulting relations are analogous to Ramanujan's differential equations for Eisenstein series on the full modular group. We deduce the cubic analogs presented here from trigonometric series identities arising in Ramanujan's original paper on Eisenstein series. Several consequences of these differential equations are established, including a short proof of a famous cubic theta function identity derived by J. M. Borwein and P. B. Borwein.

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Relation between Borweins’ Cubic Theta Functions and Ramanujan’s Eisenstein Series

Journal of Applied Mathematics ◽

10.1155/2021/6614572 ◽

2021 ◽

Vol 2021 ◽

pp. 1-6

Author(s):

B. R. Srivatsa Kumar ◽

Shruthi ◽

D. Anu Radha

Keyword(s):

Eisenstein Series ◽

Geometric Mean ◽

Theta Functions ◽

Two Dimensional

Two-dimensional theta functions were found by the Borwein brothers to work on Gauss and Legendre’s arithmetic-geometric mean iteration. In this paper, some new Eisenstein series identities are obtained by using ( p , k )-parametrization in terms of Borweins’ theta functions.

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