GonÄarov Polynomials in Partition Lattices and Exponential Families
arXiv:1907.07814
Abstract
Classical GonÄarov polynomials arose in numerical analysis as a basis for the solutions of the GonÄarov interpolation problem. These polynomials provide a natural algebraic tool in the enumerative theory of parking functions. By replacing the differentiation operator with a delta operator and using the theory of finite operator calculus, Lorentz, Tringali and Yan introduced the sequence of generalized GonÄarov polynomials associated to a pair $(Î, Z)$ of a delta operator $Î$ and an interpolation grid $Z$. Generalized GonÄarov polynomials share many nice algebraic properties and have a connection with the theories of binomial enumeration and order statistics. In this paper we give a complete combinatorial interpretation for any sequence of generalized GonÄarov polynomials. First, we show that they can be realized as weight enumerators in partition lattices. Then, we give a more concrete realization in exponential families and show that these polynomials enumerate various enriched structures of vector parking functions.
18 pages