Lerch zeta function
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In mathematics, the Lerch zeta-function, sometimes called the Hurwitz-Lerch zeta-function, is a special function that generalizes the Hurwitz zeta-function and the polylogarithm. It is named after Mathias Lerch [1].
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[edit] Definition
The Lerch zeta-function is given by
A related function, the Lerch transcendent, is given by
The two are related, as
[edit] Integral representations
An integral representation is given by
for
A contour integral representation is given by
for
where the contour must not enclose any of the points
A Hermite-like integral representation is given by
for
and
for
[edit] Special cases
The Hurwitz zeta-function is a special case, given by
The polylogarithm is a special case of the Lerch Zeta, given by
The Legendre chi function is a special case, given by
The Riemann zeta-function is given by
The Dirichlet eta-function is given by
[edit] Identities
For λ rational, the summand is a root of unity, and thus L(λ,α,s) may be expressed as a finite sum over the Hurwitz zeta-function.
Various identities include:
and
and
[edit] Series representations
A series representation for the Lerch transcendent is given by
The series is valid for all s, and for complex z with Re(z)<1/2. Note a general resemblance to a similar series representation for the Hurwitz zeta function.
A Taylor's series in the first parameter was given by Erdélyi. It may be written as the following series, which is valid for
- (the correctness of this formula is disputed, please see the talk page)
Please see: B. R. Johnson, Generalized Lerch zeta-function. Pacific J. Math. 53, no. 1 (1974), 189–193. http://projecteuclid.org/Dienst/UI/1.0/Display/euclid.pjm/1102911791?abstract=
If s is a positive integer, then
A Taylor series in the third variable is given by
Series at a = -n is given by
A special case for n = 0 has the following series
An asymptotic series for
for and
for
An asymptotic series in the incomplete Gamma function
for
[edit] References
- Mathias Lerch, Démonstration élémentaire de la formule: , (1903), L'Enseignement Mathématique, 5, pp.450-453.
- M. Jackson, On Lerch's transcendent and the basic bilateral hypergeometric series , (1950) J. London Math. Soc., 25, pp. 189-196
- H. Bateman, Higher Transcendental Functions, (1953) McGraw-Hill, New York.
- A. Erdélyi, Higher Transcendental Functions, (1953) McGraw-Hill, New York.
- Ramunas Garunkstis, Home Page (2005) (Provides numerous references and preprints.)
- Jesus Guillera and Jonathan Sondow, Double integrals and infinite products for some classical constants via analytic continuations of Lerch's transcendent (2005) (Includes various basic identities in the introduction.)
- Ramunas Garunkstis, Approximation of the Lerch Zeta Function (PDF)
- Sergej V. Aksenov and Ulrich D. Jentschura, C and Mathematica Programs for Calculation of Lerch's Transcendent (2002)
- S. Kanemitsu, Y. Tanigawa and H. Tsukada, A generalization of Bochner's formula, (undated, 2005 or earlier)
- A. Laurin\v cikas,R. Garunk\v stis, The Lerch zeta-function., Kluwer Academic Publishers, Dordrecht, 2002. viii+189 pp.