Dirichlet beta function

In mathematics, the Dirichlet beta function (also known as the Catalan beta function) is a special function, closely related to the Riemann zeta function. It is a particular Dirichlet L-function, the L-function for the alternating character of period four.

The Dirichlet beta function

Definition

The Dirichlet beta function is defined as

or, equivalently,

In each case, it is assumed that Re(s) > 0.

Alternatively, the following definition, in terms of the Hurwitz zeta function, is valid in the whole complex s-plane:

proof

Another equivalent definition, in terms of the Lerch transcendent, is:

which is once again valid for all complex values of s.

Also the series representation of Dirichlet beta function can be formed in terms of the polygamma function

Euler product formula

It is also the simplest example of a series non-directly related to which can also be factorized as an Euler product, thus leading to the idea of Dirichlet character defining the exact set of Dirichlet series having a factorization over the prime numbers.

At least for Re(s)  1:

where p≡1 mod 4 are the primes of the form 4n+1 (5,13,17,...) and p≡3 mod 4 are the primes of the form 4n+3 (3,7,11,...). This can be written compactly as

Functional equation

The functional equation extends the beta function to the left side of the complex plane Re(s) ≤ 0. It is given by

where Γ(s) is the gamma function.

Special values

Some special values include:

where G represents Catalan's constant, and

where in the above is an example of the polygamma function. More generally, for any positive integer k:

where represent the Euler numbers. For integer k  0, this extends to:

Hence, the function vanishes for all odd negative integral values of the argument.

For every positive integer k:

where is the Euler zigzag number.

Also it was derived by Malmsten in 1842 that

sapproximate value β(s)OEIS
1/50.5737108471859466493572665A261624
1/40.5907230564424947318659591A261623
1/30.6178550888488520660725389A261622
1/20.6676914571896091766586909A195103
10.7853981633974483096156608A003881
20.9159655941772190150546035A006752
30.9689461462593693804836348A153071
40.9889445517411053361084226A175572
50.9961578280770880640063194A175571
60.9986852222184381354416008A175570
70.9995545078905399094963465
80.9998499902468296563380671
90.9999496841872200898213589
100.9999831640261968774055407

There are zeros at -1; -3; -5; -7 etc.

See also

References

    • Glasser, M. L. (1972). "The evaluation of lattice sums. I. Analytic procedures". J. Math. Phys. 14 (3): 409. Bibcode:1973JMP....14..409G. doi:10.1063/1.1666331.
    • J. Spanier and K. B. Oldham, An Atlas of Functions, (1987) Hemisphere, New York.
    • Weisstein, Eric W. "Dirichlet Beta Function". MathWorld.
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