Besov Spaces on Compact Lie Groups

## Abstract We introduce a Littlewood–Paley decomposition related to any sub‐Laplacian on a Lie group __G__ of polynomial volume growth; this allows us to prove a Littlewood–Paley theorem in this general setting and to provide a dyadic characterization of Besov spaces __B__ ^__s,q__^ ~__p__~ (__G_

Function spaces of Hardy Sobolev Besov type on symmetric spaces of noncompact type and unimodular Lie groups are investigated. The spaces were originally defined by uniform localization. In the paper we give a characterization of the space F s p, q (X ) and B s p, q (X ) in terms of heat and Poisson

The usual formula for Hermite polynomials on \(\mathbf{R}^{d}\) is extended to a compact Lie group \(G\), yielding an isometry of \(L^{2}\left(G, p_{1}\right)\), where \(p_{1}\) is the heat kernel measure at time one, with a natural completion of the universal enveloping algebra of \(G\). The existe

We give the Bernstein polynomials for basic matrix entries of irreducible unitary Ž . representations of compact Lie group SU 2 . We also give an application to the Ž . analytic continuation of certain distributions on SU 2 , and finally we briefly describe the Bernstein polynomial for B = B-semi-in

This paper is motivated by the behavior of the heat diffusion kernel p t (x) on a general unimodular Lie group. Indeed, contrary to what happens in R n , the P t (x) on a general Lie group is behaving like t &$(t)Â2 for two possibly distinct integers $(t), one for t tending to 0 and another for t te