Harmonic analysis associated to the canonical Fourier Bessel transform
Lazhar Dhaouadi, Jihed Sahbani, Ahmed Fitouhi
Abstract
The aim of this paper is to develop a new harmonic analysis related to a Bessel type operator Δνm on the real line: We define the canonical Fourier Bessel transform Fνm and study some of its important properties. We prove a Riemann–Lebesgue lemma, inversion formula and operational formulas for this transformation. We derive Plancherel theorem and Babenko inequality for Fνm. In the present paper, several uncertainty inequalities and theorems for the canonical Fourier Bessel transform are given, including the Heisenberg inequality, Hardy theorem, Nash-type inequality, Carlson-type inequality, global uncertainty principle, local uncertainty principle, logarithmic uncertainty principle in terms of entropy and Miyachi uncertainty principle.