Dirichlet density

Dirichlet density
This article is not about the Dirichlet distribution of probability theory.

In mathematics, the Dirichlet density (or analytic density) of a set of primes, named after Johann Gustav Dirichlet, is a measure of the size of the set that is easier to use than the natural density.

Contents

Definition

If A is a subset of the prime numbers, the Dirichlet density of A is the limit

\lim_{s\rightarrow 1^+}{\sum_{p\in A}{1\over p^s}\over |\log(\frac{1}{s-1})|}

if the limit exists. This expression is usually the order of the "pole" of

\prod_{p\in A}{1\over 1-p^{-s}}

at s = 1, (though in general it is not really a pole as it has non-integral order), at least if the function on the right is a holomorphic function times a (real) power of s−1 near s = 1. For example, if A is the set of all primes, the function on the right is the Riemann zeta function which has a pole of order 1 at 0, so the set of all primes has Dirichlet density 1.

More generally, one can define the Dirichlet density of a sequence of primes (or prime powers), possibly with repetitions, in the same way.

Properties

If a subset of primes A has a natural density, given by the limit of

(number of elements of A less than N)/(number of primes less than N)

then it also has a Dirichlet density, and the two densities are the same. However it is usually easier to show that a set of primes has a Dirichlet density, and this is good enough for many purposes. For example, in proving Dirichlet's theorem on arithmetic progressions, it is easy to show that the Dirichlet density of primes in an arithmetic progression a + nb (for ab coprime) has Dirichlet density 1/φ(b), which is enough to show that there are an infinite number of such primes, but harder to show that this is the natural density.

Roughly speaking, proving that some set of primes has a non-zero Dirichlet density usually involves showing that certain L-functions do not vanish at the point s = 1, while showing that they have a natural density involves showing that the L-functions have no zeros on the line Re(s) = 1.

In practice, if some "naturally occurring" set of primes has a Dirichlet density, then it also has a natural density, but it is possible to find artificial counterexamples: for example, the set of primes whose first decimal digit is 1 has no natural density, but has Dirichlet density log(2)/log(10)[1].

Notes

  1. ^ This is attributed by J.-P. Serre to a private communication from Bombieri in A course in arithmetic; an elementary proof based on the prime number theorem is given in: A. Fuchs, G. Letta, Le problème du premier chiffre décimal pour les nombres premiers [The first digit problem for primes] (French) The Foata Festschrift. Electron. J. Combin. 3 (1996), no. 2.

References


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