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Modular forms and L-functions II

Class at Faculty of Mathematics and Physics |
NMAG473

Syllabus

Riemann surfaces

Upper half plane and SL(2, R)

Elliptic functions

Modular forms

Eisenstein's series, Ramanujan's tau function

Hecke operators

Zeta function and Dirichlet L-functions

Analytic continuation and functional equation

Theta functions

L-functions of modular forms and elliptic curves

FLT and modularity theorem

Annotation

Modular forms and L-functions are central objects in modern number theory, which played an important role in the proof of Fermat's Last Theorem. They are certain complex functions encoding information of number-theoretic interest, e.g., about the distribution of prime numbers, or numbers of solutions of diophantine equations. Combining analytic and algebraic methods, the course will cover their basic properties and some applications. Specific choice of topics will depend on the interests of participants.

The course may not be taught every academic year.