The Euler Product for the Riemann Zeta Function and Dirichlet L-Series #
The first main result of this file is the Euler Product formula for the Riemann ζ function
$$\prod_p \frac{1}{1 - p^{-s}} = \lim_{n \to \infty} \prod_{p < n} \frac{1}{1 - p^{-s}} = \zeta(s)$$
for $s$ with real part $> 1$ ($p$ runs through the primes).
riemannZeta_eulerProduct
is the second equality above. There are versions
riemannZeta_eulerProduct_hasProd
and riemannZeta_eulerProduct_tprod
in terms of HasProd
and tprod
, respectively.
The second result is dirichletLSeries_eulerProduct
(with variants
dirichletLSeries_eulerProduct_hasProd
and dirichletLSeries_eulerProduct_tprod
),
which is the analogous statement for Dirichlet L-series.
When χ
is a Dirichlet character and s ≠ 0
, the map n ↦ χ n * n^(-s)
is completely
multiplicative and vanishes at zero.
Equations
Instances For
When s.re > 1
, the map n ↦ n^(-s)
is norm-summable.
When s.re > 1
, the map n ↦ χ(n) * n^(-s)
is norm-summable.
The Euler product for the Riemann ζ function, valid for s.re > 1
.
This version is stated in terms of HasProd
.
The Euler product for the Riemann ζ function, valid for s.re > 1
.
This version is stated in terms of tprod
.
The Euler product for the Riemann ζ function, valid for s.re > 1
.
This version is stated in the form of convergence of finite partial products.
The Euler product for Dirichlet L-series, valid for s.re > 1
.
This version is stated in terms of HasProd
.
The Euler product for Dirichlet L-series, valid for s.re > 1
.
This version is stated in the form of convergence of finite partial products.