Dirichlet character: Difference between revisions

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(added section and anchor for Dirichlet L-function, AC with FE, References: Apostol, Davenport, Montgomery+Vaughan)
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In [[number theory]], a [[Dirichlet character]] is a [[multiplicative function]] on the [[positive integer]]s which is derived from a [[character (group theory)|character]] on the [[multiplicative group]] taken [[modular arithmetic|modulo]] a given integer.
In [[number theory]], a [[Dirichlet character]] is a [[multiplicative function]] on the [[positive integer]]s which is derived from a [[character (group theory)|character]] on the [[multiplicative group]] taken [[modular arithmetic|modulo]] a given integer.


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:<math>L(s,\chi) = \prod_p (1-\chi(p)p^{-s})^{-1} .\,</math>
:<math>L(s,\chi) = \prod_p (1-\chi(p)p^{-s})^{-1} .\,</math>


If χ is principal then ''L''(''s'',χ) is the [[Riemann zeta function]] with finitely many [[Euler factor]]s removed, and hence has a [[pole (complex analysis)|pole]] of order 1 at ''s''=1.  Otherwise ''L''(''s'',χ) has a half-plane of convergence to the right of ''s''=0.  In all cases, ''L''(''s'',χ) has an [[analytic continuation]] to the [[complex plane]] with a [[functional equation]].
If χ is principal then ''L''(''s'',χ) is the [[Riemann zeta function]] with finitely many [[Euler factor]]s removed, and hence has a [[pole (complex analysis)|pole]] of order 1 at ''s''=1.  Otherwise ''L''(''s'',χ) has a half-plane of convergence to the right of ''s''=0.  In all cases, ''L''(''s'',χ) has an [[analytic continuation]] to the [[complex plane]] with a [[functional equation]].[[Category:Suggestion Bot Tag]]
 
==References==
* {{cite book | author=Tom M. Apostol | title=Introduction to Analytic Number Theory | series=Undergraduate Texts in Mathematics | year=1976 | publisher=[[Springer-Verlag]] | isbn=0-387-90163-9 }}
* {{cite book | author=Harold Davenport | authorlink=Harold Davenport | title=Multiplicative number theory | series=Lectures in advanced mathematics | number=1 | publisher=Markham | location=[[Chicago]] | year=1967 }}
* {{cite book | author=Hugh L. Montgomery | authorlink=Hugh Montgomery (mathematician) | coauthors=[[Robert Charles Vaughan (mathematician)|Robert C. Vaughan]] | title=Multiplicative number theory I. Classical theory | series=Cambridge tracts in advanced mathematics | volume=97 | publisher=[[Cambridge University Press]] | year=2007 | isbn=0-521-84903-9 }}

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In number theory, a Dirichlet character is a multiplicative function on the positive integers which is derived from a character on the multiplicative group taken modulo a given integer.

Let N be a positive integer and write (Z/N)* for the multiplicative group of integers modulo N. Let χ be a group homomorphism from (Z/N)* to the unit circle. Since the multiplicative group is finite of order φ(N), where φ is the Euler totient function, the values of χ are all roots of unity. We extend χ to a function on the positive integers by defining χ(n) to be χ(n mod N) when n is coprime to N, and to be zero when n has a factor in common with N. This extended function is the Dirichlet character. As a function on the positive integers it is a totally multiplicative function with period n.

The principal character χ0 is derived from the trivial character which is 1 one n coprime to N and zero otherwise.

We say that a Dirichlet character χ1 with modulus N1 "induces" χ with modulus N if N1 divides N and χ(n) agrees with χ1(n) whenever they are both non-zero. A primitive character is one which is not induced from any character with smaller modulus. The conductor of a character is the modulus of the associated primitive character.

Dirichlet L-function

The Dirichlet L-function associated to χ is the Dirichlet series

with an Euler product

If χ is principal then L(s,χ) is the Riemann zeta function with finitely many Euler factors removed, and hence has a pole of order 1 at s=1. Otherwise L(s,χ) has a half-plane of convergence to the right of s=0. In all cases, L(s,χ) has an analytic continuation to the complex plane with a functional equation.