Euler product Guide, Meaning , Facts, Information and Description
In
mathematics, an
Euler product is an
infinite product expansion, indexed by
prime numbers p, of a
Dirichlet series. The name arose from the case of the
Riemann zeta function, where such a product representation was proved by
Euler.
In general, a Dirichlet series of the form
where
a(n) is a
multiplicative function of
n may be written as
where
P(
p,
s) is the sum
- 1 + a(p)p-s + a(p2)p-2s + ... .
In fact, if we consider these as formal generating functions, the existence of such a
formal Euler product expansion is a necessary and sufficient condition that
a(
n) be multiplicative: this says exactly that
a(
n) is the product of the
a(
pk) when
n factorises as the product of the powers
pk of distinct primes
p.
In practice all the important cases are such that the infinite series and infinite product expansions are absolutely convergent in some region
- Re(s) > C:
that is, in some right half-plane in the complex numbers. This already gives some information, since the infinite product, to converge, must give a non-zero value; hence the function given by the infinite series is not zero in such a half-plane.
An important special case is that in which P(p,s) is a geometric series, because a(n) is totally multiplicative. Then we shall have
- P(p,s) = 1/(1 - a(p)p-s)
as is the case for the Riemann zeta-function (with
a(
n) = 1), and more generally for Dirichlet characters. In the theory of
modular forms it is typical to have Euler products with quadratic polynomials in the denominator here. The general
Langlands philosophy includes a comparable explanation of the connection of polynomials of degree
m, and the
representation theory for GL
m.
This is an Article on Euler product. Page Contains Information, Facts Details or Explanation Guide About Euler product
