Dedekind sum

In mathematics, Dedekind sums 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 Dedekind eta function. They have subsequently been much studied in number theory, and have occurred in some problems of topology. Dedekind sums have a large number functional equations; this article lists only a small fraction of these.

Dedekind sums were introduced by Richard Dedekind in a commentary on fragment XXVIII of Bernhard Riemann's collected papers.

Definition

Define the sawtooth function as

We then let

D :Z3 R

be defined by

the terms on the right being the Dedekind sums. For the case a=1, one often writes

s(b,c) = D(1,b;c).

Simple formulae

Note that D is symmetric in a and b, and hence

and that, by the oddness of (()),

D(a,b;c) = D(a,b;c),
D(a,b;c) = D(a,b;c).

By the periodicity of D in its first two arguments, the third argument being the length of the period for both,

D(a,b;c)=D(a+kc,b+lc;c), for all integers k,l.

If d is a positive integer, then

D(ad,bd;cd) = dD(a,b;c),
D(ad,bd;c) = D(a,b;c), if (d,c) = 1,
D(ad,b;cd) = D(a,b;c), if (d,b) = 1.

There is a proof for the last equality making use of

Furthermore, az = 1 (mod c) implies D(a,b;c) = D(1,bz;c).

Alternative forms

If b and c are coprime, we may write s(b,c) as

where the sum extends over the c-th roots of unity other than 1, i.e. over all such that and .

If b, c > 0 are coprime, then

Reciprocity law

If b and c are coprime positive integers then

Rewriting this as

it follows that the number 6c s(b,c) is an integer.

If k = (3, c) then

and

A relation that is prominent in the theory of the Dedekind eta function is the following. Let q = 3, 5, 7 or 13 and let n = 24/(q  1). Then given integers a, b, c, d with ad  bc = 1 (thus belonging to the modular group), with c chosen so that c = kq for some integer k > 0, define

Then one has nδ is an even integer.

Rademacher's generalization of the reciprocity law

Hans Rademacher found the following generalization of the reciprocity law for Dedekind sums:[1] If a,b, and c are pairwise coprime positive integers, then

References

  1. Rademacher, Hans (1954). "Generalization of the reciprocity formula for Dedekind sums". Duke Mathematical Journal. 21: 391–397. Zbl 0057.03801. doi:10.1215/s0012-7094-54-02140-7.

Further reading

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.