Dual spaces vs. Haar measures of polynomial hypergroups
Abstract
Many symmetric orthogonal polynomials (Pn(x))n∈N0 induce a hypergroup structure on N0. The Haar measure is the counting measure weighted with h(n):=1/∫R\!Pn2(x)\,dμ(x)≥1, where μ denotes the orthogonalization measure. We observed that many naturally occurring examples satisfy the remarkable property h(n)≥2\;(n∈N). We give sufficient criteria and particularly show that h(n)≥2\;(n∈N) if the (Hermitian) dual space N0 equals the full interval [-1,1], which is fulfilled by an abundance of examples. We also study the role of nonnegative linearization of products (and of the harmonic and functional analysis resulting from such expansions). Moreover, we construct two example types with h(1)<2. To our knowledge, these are the first such examples. The first type is based on Karlin-McGregor polynomials, and N0 consists of two intervals and can be chosen "maximal" in some sense; h is of quadratic growth. The second type relies on certain compact operators; h grows exponentially, and N0 is discrete.
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