In analytic number theory and related branches of mathematics, Dirichlet characters are certain complex-valued arithmetic functions. Specifically, given a positive integer , a function is a Dirichlet character of modulus if for all integers and :
- 1) i.e. is completely multiplicative.
- 2)
- 3) ; i.e. is periodic with period .
The simplest possible character, called the principal character (usually denoted , but see Notation below) exists for all moduli:
Dirichlet introduced these functions in his 1837 paper on primes in arithmetic progressions.
Notation
is the Euler totient function.
Note that
is a primitive n-th root of unity:
- but
is the group of units mod . It has order
(or decorated versions such as or ) is a Dirichlet character.
There is no standard notation for Dirichlet characters that includes the modulus. In many contexts (such as in the proof of Dirichlet's theorem) the modulus is fixed. In other contexts, such as this article, characters of different moduli appear. Where appropriate this article employs a variation of Conrey labeling (introduced by Brian Conrey and used by the LMFDB).
In this labeling characters for modulus are denoted where the index is based on the group structure of the characters mod and is described in the section Explicit construction below. Note that the principal character for modulus is labeled .
Elementary facts
4) Since property 2) says so it can be canceled from both sides of :
5) Property 3) is equivalent to
- if then
6) Property 1) implies that, for any positive integer
7) Euler's theorem states that if then Therefore,
That is, the nonzero values of are -th roots of unity:
for some integer which depends on and .
8) If and are two characters for the same modulus so is their product defined by pointwise multiplication:
- ( obviously satisfies 1-3).
The principal character is an identity:
9) The complex conjugate of a root of unity is its inverse (see here for details):
In other words
- .
Note that this implies for extending 6) to all integers.
The multiplication and identity defined in 8) and the inversion defined in 9) turns the set of Dirichlet characters for a given modulus into a finite abelian group.
The group of characters
Construction
There are three cases to consider: powers of odd primes, powers of 2, and products of prime powers.
Powers of odd primes
If is an odd number is cyclic of order ; a generator is called a primitive root.
Let be primitive root for and define the function for by the formula
For the value of is determined by the value of
Let be a primitive -th root of unity. From property 7) above the possible values of are
These distinct values give rise to Dirichlet characters mod For define as
Then for relatively prime to (i.e. )
and
where the latter formula shows an explicit isomorphism between the group of characters mod and
For example, 2 is a primitive root mod 9 ()
so the values of are
- .
The characters mod 9 are ()
- .
Powers of 2
is the trivial group with one element. is cyclic of order 2 (−1 is a primitive root). For 8, 16, and higher powers of 2, there is no primitive root; the powers of 5 are the units and their negatives are the ones
For example
Let ; then is the direct product of a cyclic group of order 2 (generated by −1) and a cyclic group of order (generated by 5).
For odd numbers define the functions and by
For odd the value of is determined by the values of and
Let be a primitive -th root of unity. The possible values of are
These distinct values give rise to Dirichlet characters mod For odd define by
Then for odd
and
and the later formula is an isomorphism between the group of characters mod and
For example, mod 16 ()
- .
The characters mod 16 are ( is the imaginary unit)
- .
Products of prime powers
Let be the factorization of into powers of distinct primes. Then as explained here
Summary and consequences
Isomorphism
The group of Dirichlet characters mod is isomorphic to , the group of units mod .
Unique factorization
If is the factorization of m into powers of distinct primes, (to make the formula more readable) let Then for
Orthogonality
Classification of characters
Conductor; Primitive and induced characters
Sign
Real
Applications
L-functions
Modular functions
online
d's 0riginal in eng.
https://arxiv.org/abs/0808.1408#:~:text=Dirichlet's%20proof%20of%20infinitely%20many,and%20the%20distribution%20of%20primes.