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A Spectral Identity on Jacobi Polynomials and its Analytic Implications

Published online by Cambridge University Press:  20 November 2018

Richard Awonusika
Affiliation:
Department of Mathematics, University of Sussex, Brighton, UK, e-mail : r.awonusika@sussex.ac.uk, a.taheri@sussex.ac.uk
Ali Taheri
Affiliation:
Department of Mathematics, University of Sussex, Brighton, UK, e-mail : r.awonusika@sussex.ac.uk, a.taheri@sussex.ac.uk
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Abstract

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The Jacobi coefficients $c_{j}^{\ell }\left( \alpha ,\,\beta \right)\,\left( 1\,\le \,j\,\le \,\ell ,\,\alpha ,\,\beta \,>\,-1 \right)$ are linked to the Maclaurin spectral expansion of the Schwartz kernel of functions of the Laplacian on a compact rank one symmetric space. It is proved that these coefficients can be computed by transforming the even derivatives of the Jacobi polynomials $P_{k}^{\left( \alpha ,\,\beta \right)}\,\left( k\,\ge \,0,\,\alpha ,\,\beta \,>\,-1 \right)$ into a spectral sum associated with the Jacobi operator. The first few coefficients are explicitly computed, and a direct trace interpretation of the Maclaurin coefficients is presented.

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 2018

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