Multivariate Meixner polynomials as Birth and Death polynomials

Abstract

Based on the framework of Plamen Iliev, multivariate Meixner polynomials are constructed explicitly as Birth and Death polynomials. They form the complete set of eigenpolynomials of a birth and death process with the birth and death rates at population x=(x1,…,xn)∈N0n are Bj(x)=(β+Σi=1nxj) and Dj(x)=cj-1xj, 0<cj, j=1,…,n, Σj=1ncj<1. The corresponding stationary distribution is (β)Σj=1ncjΠj=1n(cjxj/xj!)(1-Σj=1ncj)β, the trivial n-variable generalisation of the orthogonality weight of the single variable Meixner polynomials. The polynomials, depending on n+1 parameters (\ci\ and β), satisfy the difference equation with the coefficients Bj(x) and Dj(x) j=1,…,n, which is the straightforward generalisation of the difference equation governing the single variable Meixner polynomials. The polynomials are truncated (n+1,2n+2) hypergeometric functions of Aomoto-Gelfand. The polynomials and the derivation are very similar to those of the multivariate Krawtchouk polynomials reported recently.

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