Theta-series
-series
A series of functions used in the representation of automorphic forms and functions (cf. Automorphic form; Automorphic function).
Let 
be a domain in the complex space 
, 
, and let 
be the discrete group of automorphisms of 
. If 
is finite, then any function 
, 
, meromorphic on 
gives rise to an automorphic function
 |
For infinite groups one needs convergence multipliers to obtain a theta-series. A Poincaré series, associated to a group 
, is a series of the form
 | (1) |
where 
is the Jacobian of the function 
and 
is an integer called the weight or the order. The asterisk means that summation is over those 
which yield distinct terms in the series. Under a mapping 
, 
, the function 
is transformed according to the law 
, and hence is an automorphic function of weight 
, associated to 
. The quotient of two theta-series of the same weight gives an automorphic function.
The theta-series
 |
is called an Eisenstein theta-series, or simply an Eisenstein series, associated with 
.
H. Poincaré, in a series of articles in the 1880's, developed the theory of theta-series in connection with the study of automorphic functions of one complex variable. Let 
be a discrete Fuchsian group of fractional-linear transformations
 |
mapping the unit disc 
onto itself. For this case the Poincaré series has the form
 | (2) |
where 
, for example, is a bounded holomorphic function on 
. Under the hypothesis that 
acts freely on 
and that the quotient space 
is compact, it has been shown that the series (2) converges absolutely and uniformly on 
for 
. With the stated conditions on 
and 
, this assertion holds also for the series (1) in the case where 
is a bounded domain in 
. For certain Fuchsian groups the series (2) converges also for 
.
The term "theta-series" is also applied to series expansions of theta-functions, which are used in the representation of elliptic functions (cf. Jacobi elliptic functions) and Abelian functions (cf. Theta-function; Abelian function).
References
| [1] | L.R. Ford, "Automorphic functions" , Chelsea, reprint (1951) MR1522111 Zbl 55.0810.04 Zbl 46.0621.01 Zbl 45.0693.07 |
| [2] | I.R. Shafarevich, "Basic algebraic geometry" , Springer (1977) (Translated from Russian) MR0447223 Zbl 0362.14001 |
| [3] | R. Fricke, F. Klein, "Vorlesungen über die Theorie der automorphen Funktionen" , 1–2 , Teubner (1926) MR0183872 Zbl 32.0430.01 Zbl 43.0529.08 Zbl 42.0452.01 |
Comments
Let 
be a lattice. The theta-series of the lattice 
is defined by
 |
where 
is the number of points in 
of squared length 
. For instance, if 
is the lattice 
, then 
is the number of ways of representing 
as a sum of four integral squares.
For the lattice 
the theta-series is
 |
which is the Jacobi theta-function 
.
For more details on theta-series of lattices, including formulas and tables for many (series of) important lattices such as root lattices and the Leech lattice, and applications, cf. [a2].
References
| [a1] | A. Weil, "Elliptic functions according to Eisenstein and Kronecker" , Springer (1976) MR0562289 MR0562290 Zbl 0318.33004 |
| [a2] | J.H. Conway, N.J.A. Sloane, "Sphere packing, lattices and groups" , Springer (1988) MR0920369 |
Theta-series. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Theta-series&oldid=13141