In mathematics, the Bessel polynomials are an orthogonalsequence of polynomials. There are a number of different but closely related definitions. The definition favored by mathematicians is given by the series Another definition, favored by electrical engineers, is sometimes known as the reverse Bessel polynomials. The coefficients of the second definition are the same as the first but in reverse order. For example, the third-degree Bessel polynomial is while the third-degree reverse Bessel polynomial is The reverse Bessel polynomial is used in the design of Bessel electronic filters.
The Bessel polynomial may also be defined using Bessel functions from which the polynomial draws its name. where Kn is a, yn is the ordinary polynomial, and θn is the reverse polynomial . For example:
The Bessel polynomials, with index shifted, have the generating function Differentiating with respect to, cancelling, yields the generating function for the polynomials
Recursion
The Bessel polynomial may also be defined by a recursion formula: and
Differential equation
The Bessel polynomial obeys the following differential equation: and
Generalization
Explicit Form
A generalization of the Bessel polynomials have been suggested in literature, as following: the corresponding reverse polynomials are For the weighting function they are orthogonal, for the relation holds for m ≠ n and c a curve surrounding the 0 point. They specialize to the Bessel polynomials for α = β = 2, in which situation ρ = exp.
The Rodrigues formula for the Bessel polynomials as particular solutions of the above differential equation is : where a are normalization coefficients.
Associated Bessel polynomials
According to this generalization we have the following generalized differential equation for associated Bessel polynomials: where. The solutions are,
The first five Bessel Polynomials are expressed as: No Bessel Polynomial can be factored into lower-ordered polynomials with strictly rational coefficients. The five reverse Bessel Polynomials are obtained by reversing the coefficients. Equivalently,. This results in the following:
