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In mathematics, a polynomial sequence has a generalized Appell representation if the generating function for the polynomials takes on a certain form:
where the generating function or kernel is composed of the series
- with
and
- and all
and
- with
Given the above, it is not hard to show that is a polynomial of degree .
Boas–Buck polynomials are a slightly more general class of polynomials.
Special cases
edit- The choice of gives the class of Brenke polynomials.
- The choice of results in the Sheffer sequence of polynomials, which include the general difference polynomials, such as the Newton polynomials.
- The combined choice of and gives the Appell sequence of polynomials.
Explicit representation
editThe generalized Appell polynomials have the explicit representation
The constant is
where this sum extends over all compositions of into parts; that is, the sum extends over all such that
For the Appell polynomials, this becomes the formula
Recursion relation
editEquivalently, a necessary and sufficient condition that the kernel can be written as with is that
where and have the power series
and
Substituting
immediately gives the recursion relation
For the special case of the Brenke polynomials, one has and thus all of the , simplifying the recursion relation significantly.
See also
editReferences
edit- Ralph P. Boas, Jr. and R. Creighton Buck, Polynomial Expansions of Analytic Functions (Second Printing Corrected), (1964) Academic Press Inc., Publishers New York, Springer-Verlag, Berlin. Library of Congress Card Number 63-23263.
- Brenke, William C. (1945). "On generating functions of polynomial systems". American Mathematical Monthly. 52 (6): 297–301. doi:10.2307/2305289.
- Huff, W. N. (1947). "The type of the polynomials generated by f(xt) φ(t)". Duke Mathematical Journal. 14 (4): 1091–1104. doi:10.1215/S0012-7094-47-01483-X.