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A novel family of −1 orthogonal polynomials referred to as the Chihara polynomials is introduced and characterized. The polynomials are obtained from a “continuous” limit of the Complementary Bannai–Ito polynomials, which are the kernel partners of the Bannai–Ito polynomials. The three-term recurrence relation and the explicit expression in terms of Gauss hypergeometric functions are obtained through a limit process. A one-parameter family of second-order differential Dunkl operators having these polynomials as eigenfunctions is also exhibited. The quadratic algebra with involution encoding this bispectrality is obtained. The orthogonality measure is derived in two different ways: by using Chihara’s method for kernel polynomials and, by obtaining the symmetry factor for the one-parameter family of Dunkl operators. It is shown that the polynomials are related to the Big −1 Jacobi polynomials by a Christoffel transformation and that they can be obtained from the Big q-Jacobi by a q → −1 limit. The generalized Gegenbauer/Hermite polynomials are respectively seen to be special/limiting cases of the Chihara polynomials. A one-parameter extension of the generalized Hermite polynomials is proposed.

Intradasting.