M4P58: Modular Forms

Thu 11-12, Fri 2-4 in 658 Huxley
Dr. David Helm
672 Huxley
Office Hours: TBA

Course description

This course concerns the theory of modular forms, which are holomorphic functions on the complex upper half plane that exhibit a very high degree of symmetry. Such functions have surprising applications outside of analysis; for example, their power series expansions often encode useful arithmetic information such as the number of solutions of certain diophantine equations modulo various primes. In this course we will establish the foundations of the theory of modular forms, and related functions such as elliptic functions, and illustrate some of the applications to arithmetic.

Suggested References

Serre's A Course in Arithmetic, Chapter VII, is a classic reference for the theory of modular forms of level one, and we will follow it fairly closely. The first chapter of Silverman's Advanced topics in the the arithmetic of elliptic curves is another good reference, and covers some material, such as the theory of elliptic functions, that Serre omits.
For the theory of modular forms of higher level, the references are less standard. Diamond and Shurman's A First Course in Modular Forms certainly covers everything we will cover (and much more!), but is at a somewhat higher level than the course will be taught at. There are also Milne's modular forms lecture notes which make more use of geometry- and in particular the theory of Riemann surfaces- than we will, but which might be useful nonetheless.


Problem sets will be posted here every two weeks. They will not be assessed work.
Example Sheet 1 (Due Thursday 31 October) Solutions
Example Sheet 2 (Due Thursday 14 November) Solutions
Example Sheet 3 (Due Thursday 28 November) Solutions
Example Sheet 4 (Due Thursday 12 December) Solutions