EPSRC Reference: 
EP/K01174X/1 
Title: 
Arithmetic applications of KudlaMillson theta lifts 
Principal Investigator: 
Berger, Dr TT 
Other Investigators: 

Researcher CoInvestigators: 

Project Partners: 

Department: 
Mathematics and Statistics 
Organisation: 
University of Sheffield 
Scheme: 
First Grant  Revised 2009 
Starts: 
07 July 2013 
Ends: 
06 July 2015 
Value (£): 
72,264

EPSRC Research Topic Classifications: 

EPSRC Industrial Sector Classifications: 
No relevance to Underpinning Sectors 


Related Grants: 

Panel History: 

Summary on Grant Application Form 
This proposal is motivated by the Langlands programme, a series of conjectures made by the mathematician Robert Langlands in the 1960s and 70s. They predict precise links between three seemingly unrelated classes of objects. These come from representation theory (in the form of modular forms), number theory (Galois representations) and algebraic geometry (motives e.g. elliptic curves). For each of these disparate objects you can determine something akin to an underlying DNA, the socalled Lfunction. (The most famous example of an Lfunction is the "Riemann zeta function", which contains a host of arithmetic information about prime numbers). You can use this DNA to match the objects, e.g. for every modular form there should be a Galois representation with the same Lfunction. Establishing these links enables mathematicians to understand more deeply the properties of the objects involved and allows them to prove theorems, such as the famous example of the proof of Fermat's last theorem by Wiles and Taylor in 1994.
Automorphic forms (examples of which include modular forms) are special kinds of analytic functions and can be studied for groups of matrices with entries in different fields. Fields are typically sets of "numbers" in which the operations of addition, subtraction, multiplication and division are defined. An example is the field of rational numbers but there are many other fields besides this.
Much progress has been made in the theory of automorphic forms over the rational numbers (and other totally real fields) in the last two decades. This has led to successes such as the proof of the SatoTate conjectures for elliptic curves. This proposal wants to move to new ground in the hope that it will prove similarly fertile. New phenomena occur with Bianchi modular forms (automorphic forms for 2x2 invertible matrices over imaginary quadratic fields), a considerably different case in which previously developed tools from algebraic geometry are not applicable. This case is therefore an important testing ground for finding new techniques that could apply in the general context of the Langlands programme.
So what techniques will I try? Recent progress in the theory of Siegel modular forms (4x4 symplectic matrices over the rational numbers) has led me to consider Kudla and Millson's theta lift. This is a construction that can be used to transfer Bianchi modular forms to Siegel modular forms. I propose to study the finer properties of this theta lift with the goal of applying it to answer questions about Bianchi modular forms. In particular, I want to prove results about their associated Lfunctions and Galois representations.
Specific aims of the proposal include proving a relation between Lvalues of Bianchi modular forms and the squares of Fourier coefficients of the KudlaMillson theta lifts (an analogue of a famous formula by Waldspurger); proving one direction of the BlochKato conjecture for the Asai Galois representation (a result explaining the significance of the value of a particular Lfunction); and studying the theta lift in the context of a "padic Langlands functoriality" conjectured by Calegari and Mazur.
This proposal will lead to a much better understanding of Bianchi modular forms and will help other members of the large community of mathematicians working on the Langlands programme.

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Organisation Website: 
http://www.shef.ac.uk 