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Germ Expansions for Real Groups Read chapter Read first chapter

2016 | OriginalPaper | Chapter

Zeta Functions for the Adjoint Action of GL(n) and Density of Residues of Dedekind Zeta Functions

Author : Jasmin Matz

Published in: Families of Automorphic Forms and the Trace Formula

Publisher: Springer International Publishing

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Abstract

We define zeta functions for the adjoint action of \(\mathop{\mathrm{GL}}\nolimits _{n}\) on its Lie algebra and study their analytic properties. For n ≤ 3 we are able to fully analyse these functions. If n = 2, we recover the Shintani zeta function for the prehomogeneous vector space of binary quadratic forms. Our construction naturally yields a regularisation, which is necessary to improve the analytic properties of these zeta function, in particular for the analytic continuation if n ≥ 3.We further obtain upper and lower bounds on the mean value \(X^{-\frac{5} {2} }\sum _{E}\mathop{ \mathrm{res}}_{s=1}\zeta _{E}(s)\) as X → , where E runs over totally real cubic number fields whose second successive minimum of the trace form on its ring of integers is bounded by X. To prove the upper bound we use our new zeta function for \(\mathop{\mathrm{GL}}\nolimits _{3}\). These asymptotic bounds are a first step towards a generalisation of density results obtained by Datskovsky in case of quadratic field extensions.

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previous chapter Distribution of Hecke Eigenvalues for GL(n)
next chapter Some Results in the Theory of Low-Lying Zeros of Families of L-Functions
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Metadata
Title
Zeta Functions for the Adjoint Action of GL(n) and Density of Residues of Dedekind Zeta Functions
Author
Jasmin Matz
Copyright Year
2016
Book
Families of Automorphic Forms and the Trace Formula

Print ISBN: 978-3-319-41422-5

Electronic ISBN: 978-3-319-41424-9

Copyright Year: 2016

DOI
https://doi.org/10.1007/978-3-319-41424-9_10

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