Hardy-type theorem for orthogonal functions with respect to their zeros. The Jacobi weight case

Abreu, L. D.; Marcellán Español, Francisco José; Yakubovich, S. B.

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Hardy-type theorem for orthogonal functions with respect to their zeros. The Jacobi weight case

Author(s): Abreu, L. D.; Marcellán Español, Francisco José; Yakubovich, S. B.

Publisher: Elsevier

Issued date: 2008-05-15

Citation: Journal of Mathematical Analysis and Applications, 2008, vol. 341, n. 2, p. 803-812

ISSN: 0022-247X

DOI: 10.1016/j.jmaa.2007.10.050

Sponsor: The work of LDA has been supported by CMUC and FCT post-doctoral grant SFRH/BPD/26078/2005. The work of FM has been supported by Dirección General de Investigación, Ministerio de Educación y Ciencia of Spain, MTM 2006-13000-C03-02. The work of SBY has been supported, in part, by the "Centro de Matemática" of the University of Porto.

Review: PeerReviewed

Publisher version: http://dx.doi.org/10.1016/j.jmaa.2007.10.050

Keywords: Zeros of special functions , Orthogonality , Jacobi weights , Mellin transform on distributions , Entire functions , Bessel functions , Hyperbessel functions

URI: http://hdl.handle.net/10016/5916

Rights: © Elsevier

Abstract:

Motivated by the G.H. Hardy's 1939 results [G.H. Hardy, Notes on special systems of orthogonal functions II: On functions orthogonal with respect to their own zeros, J. London Math. Soc. 14 (1939) 37–44] on functions orthogonal with respect to their real zeros [+]

$\int_0 1 f(λ_n t)f(λ_m t)t (1-t) dt=0, α>-1-2ν, β>-1 [+]

when n≠m. Considering all possible functions on this class we obtain a new family of generalized Bessel functions including Bessel and hyperbessel functions as special cases. [+]