E-function


In mathematics, E-functions are a type of power series that satisfy particular arithmetic conditions on the coefficients. They are of interest in transcendental number theory, and are more special than G-functions.

Definition

A function f is called of type E, or an E-function, if the power series
satisfies the following three conditions:
where the left hand side represents the maximum of the absolute values of all the algebraic conjugates of cn;
The second condition implies that f is an entire function of x.

Uses

E-functions were first studied by Siegel in 1929. He found a method to show that the values taken by certain E-functions were algebraically independent.This was a result which established the algebraic independence of classes of numbers rather than just linear independence. Since then these functions have proved somewhat useful in number theory and in particular they have application in transcendence proofs and differential equations.

The Siegel–Shidlovsky theorem

Perhaps the main result connected to E-functions is the Siegel–Shidlovsky theorem, named after Carl Ludwig Siegel and Andrei Borisovich Shidlovskii.
Suppose that we are given n E-functions, E1,...,En, that satisfy a system of homogeneous linear differential equations
where the fij are rational functions of x, and the coefficients of each E and f are elements of an algebraic number field K. Then the theorem states that if E1,...,En are algebraically independent over K, then for any non-zero algebraic number α that is not a pole of any of the fij the numbers E1,...,En are algebraically independent.

Examples

  1. Any polynomial with algebraic coefficients is a simple example of an E-function.
  2. The exponential function is an E-function, in its case cn=1 for all of the n.
  3. If λ is an algebraic number then the Bessel function Jλ is an E-function.
  4. The sum or product of two E-functions is an E-function. In particular E-functions form a ring.
  5. If a is an algebraic number and f is an E-function then f will be an E-function.
  6. If f is an E-function then the derivative and integral of f are also E-functions.