Abstract
This paper develops an analytic theory of Dirichlet series in several complex variables which possess sufficiently many functional equations. In the first two sections it is shown how straightforward conjectures about the meromorphic continuation and polar divisors of certain such series imply, as a consequence, precise asymptotics (previously conjectured via random matrix theory) for moments of zeta functions and quadratic L-series. As an application of the theory, in a third section, we obtain the current best known error term for mean values of cubes of cent ral values of Dirichlet L-series. The methods utilized to derive this result are the convexity principle for functions of several complex-variables combined with a knowledge of groups of functional equations for certain multiple Dirichlet series.
| Original language | English (US) |
|---|---|
| Pages (from-to) | 297-360 |
| Number of pages | 64 |
| Journal | Compositio Mathematica |
| Volume | 139 |
| Issue number | 3 |
| DOIs | |
| State | Published - Dec 2003 |
Bibliographical note
Funding Information:Adrian Diaconu would like to thank AIM for its generous support of this research in the summer of 2001. The second two authors are partially supported by the National Science Foundation.
Keywords
- L-functions
- Moments
- Multiple dirichlet series
- Twists
- Zeta functions