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Advances in Theoretical and Mathematical Physics
Volume 25 (2021)
Number 6
The family of confluent Virasoro fusion kernels and a non-polynomial $q$-Askey scheme
Pages: 1597 – 1650
DOI: https://dx.doi.org/10.4310/ATMP.2021.v25.n6.a5
Authors
Abstract
We study the recently introduced family of confluent Virasoro fusion kernels $\mathcal{C}_k (b, \theta, \sigma_s, \nu)$. We study their eigenfunction properties and show that they can be viewed as non-polynomial generalizations of both the continuous dual $q$-Hahn and the big $q$-Jacobi polynomials. More precisely, we prove that: (i) $\mathcal{C}_k$ is a joint eigenfunction of four different difference operators for any positive integer $k$, (ii) $\mathcal{C}_k$ degenerates to the continuous dual $q$-Hahn polynomials when $\nu$ is suitably discretized, and (iii) $\mathcal{C}_k$ degenerates to the big $q$-Jacobi polynomials when $\sigma_s$ is suitably discretized. These observations lead us to propose the existence of a non-polynomial generalization of the $q$-Askey scheme. The top member of this nonpolynomial scheme is the Virasoro fusion kernel (or, equivalently, Ruijsenaars’ hypergeometric function), and its first confluence is given by the $\mathcal{C}_k$.
J.R. acknowledges support from the European Research Council, Grant Agreement No. 682537 and the Ruth and Nils-Erik Stenbäck Foundation. J.L. acknowledges support from the European Research Council, Grant Agreement No. 682537, the Swedish Research Council, Grant No. 2015-05430, and the Ruth and Nils-Erik Stenbäck Foundation.
Published 24 June 2022