Dedekind eta function

For the Dirichlet series see Dirichlet eta function.

Dedekind η-function in the complex plane

The Dedekind eta function, named after Richard Dedekind, is a function defined on the upper half-plane of complex numbers, where the imaginary part is positive. For any such complex number $\tau\,$ , we define $q = e^{2\pi {\rm{i}} \tau}\,$ , and define the eta function by

$\eta(\tau) = q^{\frac{1}{24}} \prod_{n=1}^{\infty} (1-q^{n}).$

(The notation $q \equiv e^{2{\rm{i}} \pi\tau}\,$ is now standard in number theory, though many older books use q for the nome $q \equiv e^{\pi{\rm{i}} \tau}\,$ ). The presence of 24 can be understood by connection with other occurrences, as in the modular discriminant and the Leech lattice.

The eta function is holomorphic on the upper half-plane but cannot be continued analytically beyond it.

Modulus of Euler phi on the unit disc, colored so that black=0, red=4

The real part of the modular discriminant as a function of q.

The eta function satisfies the functional equations^[1]

$\eta(\tau+1) =e^{\frac{\pi {\rm{i}}}{12}}\eta(\tau),\,$

$\eta(-\tau^{-1}) = \sqrt{-{\rm{i}}\tau} \eta(\tau).\,$

More generally, suppose $a, b, c, d \,$ are integers with $ad-bc=1 \,$ , so that

$\tau\mapsto\frac{a\tau+b}{c\tau+d}$

is a transformation belonging to the modular group. We may assume that either $c>0\,$ , or $c=0 \,$ and $d=1 \,$ . Then

$\eta \left( \frac{a\tau+b}{c\tau+d} \right) = \epsilon (a,b,c,d) (c\tau+d)^{\frac{1}{2}} \eta(\tau),$

where

$\epsilon (a,b,c,d)=e^{\frac{b{\rm{i}} \pi}{12}}\quad(c=0,d=1);$

$\epsilon (a,b,c,d)=e^{{\rm{i}}\pi [\frac{a+d}{12c} - s(d,c) -\frac{1}{4}]}\quad(c>0).$

Here $s(h,k)\,$ is the Dedekind sum

$s(h,k)=\sum_{n=1}^{k-1} \frac{n}{k} \left( \frac{hn}{k} - \left\lfloor \frac{hn}{k} \right\rfloor -\frac{1}{2} \right).$

Because of these functional equations the eta function is a modular form of weight 1/2 and level 1 for a certain character of order 24 of the metaplectic double cover of the modular group, and can be used to define other modular forms. In particular the modular discriminant of Weierstrass can be defined as

$\Delta(\tau) = (2 \pi)^{12} \eta(\tau)^{24}\,$

and is a modular form of weight 12. (Some authors omit the factor of (2π)¹², so that the series expansion has integral coefficients).

The Jacobi triple product implies that the eta is (up to a factor) a Jacobi theta function for special values of the arguments:

$\eta(z) = \sum_{n=1}^\infty \chi(n) \exp(\tfrac{1}{12} \pi i n^2 z),$

where $χ(n)$ is the Dirichlet character modulo 12 with $\chi(\pm1) = 1$ , $\chi(\pm 5)=-1$ .

The Euler function

$\phi(q) = \prod_{n=1}^{\infty} \left(1-q^n\right),$

related to $\eta \,$ by $\phi(q)= q^{-1/24} \eta(\tau)\,$ , has a power series by the Euler identity:

$\phi(q)=\sum_{n=-\infty}^\infty (-1)^n q^{(3n^2-n)/2}.$

Because the eta function is easy to compute numerically from either power series, it is often helpful in computation to express other functions in terms of it when possible, and products and quotients of eta functions, called eta quotients, can be used to express a great variety of modular forms.

The picture on this page shows the modulus of the Euler function: the additional factor of $q 1 / 24$ between this and eta makes almost no visual difference whatsoever (it only introduces a tiny pinprick at the origin). Thus, this picture can be taken as a picture of eta as a function of q.

References

^ Siegel, C.L. (1954). "A Simple Proof of $\eta(-1/\tau) = \eta(\tau)\sqrt{\tau/{\rm{i}}}\,$ ". Mathematika 1: 4. doi:10.1112/S0025579300000462.

Tom M. Apostol, Modular functions and Dirichlet Series in Number Theory (2 ed), Graduate Texts in Mathematics 41 (1990), Springer-Verlag, ISBN 3-540-97127-0 See chapter 3.
Neil Koblitz, Introduction to Elliptic Curves and Modular Forms (2 ed), Graduate Texts in Mathematics 97 (1993), Springer-Verlag, ISBN 3-540-97966-2

Categories:

Fractals
Modular forms
Elliptic functions

Wikimedia Foundation. 2010.

Игры ⚽ Поможем решить контрольную работу

Look at other dictionaries:

Eta function — There are two distinct functions called eta function in number theory:* The Dirichlet eta function * The Dedekind eta function disambig … Wikipedia
Dirichlet eta function — For the modular form see Dedekind eta function. Dirichlet eta function η(s) in the complex plane. The color of a point s encodes the value of η(s). Strong colors denote values close to zero and hue encodes the value s argumen … Wikipedia
Eta (letter) — Eta (uppercase Eta;, lowercase eta;; el. Ήτα) is the seventh letter of the Greek alphabet. In the system of Greek numerals it has a value of 8. Letters that arose from Eta include the Latin H and the Cyrillic letter И. In Modern Greek the letter … Wikipedia
Dedekind sum — In mathematics, Dedekind sums, named after Richard Dedekind, are certain sums of products of a sawtooth function, and are given by a function D of three integer variables. Dedekind introduced them to express the functional equation of the… … Wikipedia
Dedekind function — In number theory, Dedekind function can refer to any of three functions, all introduced by Richard Dedekind Dedekind eta function Dedekind psi function Dedekind zeta function This disambiguation page lists articles associated with the same title … Wikipedia
Función eta de Dedekind — No debe confundirse con función zeta de Dedekind o función eta de Dirichlet. Función eta de Dedekind representada en el plano complejo. La función eta de Dedekind o simplemente función η de Dedekind, nombrada así en honor al matemático… … Wikipedia Español
Richard Dedekind — Infobox Scientist name = PAGENAME box width = image size =180px caption =Richard Dedekind, c. 1850 birth date = October 6, 1831 birth place = Braunschweig death date = February 12, 1916 death place = Braunschweig residence = citizenship =… … Wikipedia
Fonction êta de Dedekind — La fonction êta de Dedekind est une fonction définie sur le demi plan de Poincaré formé par les nombres complexes de partie imaginaire positive. Pour chaque nombre complexe τ dans cet ensemble, on définit q = e2iπτ et la fonction êta est… … Wikipédia en Français
Dedekindsche Eta-Funktion — Die Dedekindsche η Funktion in der komplexen Ebene Die nach dem deutschen Mathematiker Richard Dedekind benannte η Funktion ist eine auf der oberen Halbebene holomorphe Funktion. Sie spielt eine wichtige Rolle in der Theorie d … Deutsch Wikipedia
Theta function — heta 1 with u = i pi z and with nome q = e^{i pi au}= 0.1 e^{0.1 i pi}. Conventions are (mathematica): heta 1(u;q) = 2 q^{1/4} sum {n=0}^infty ( 1)^n q^{n(n+1)} sin((2n+1)u) this is: heta 1(u;q) = sum {n= infty}^{n=infty} ( 1)^{n 1/2}… … Wikipedia

Academic Dictionaries and Encyclopedias

Dedekind eta function

See also

References

Look at other dictionaries:

Share the article and excerpts

Academic Dictionaries and Encyclopedias

Wikipedia

Dedekind eta function

See also

References

Look at other dictionaries:

Share the article and excerpts

Direct link