Abstract.
The classical Fischer decomposition of polynomials on Euclidean space makes it possible to express any polynomial as a sum of harmonic polynomials multiplied by powers of |x|2. A deformation of the Laplace operator was recently introduced by Ch.F. Dunkl. It has the property that the symmetry with respect to the orthogonal group is broken to a finite subgroup generated by reflections (a Coxeter group). It was shown by B. Ørsted and S. Ben Said that there is a deformation of the Fischer decomposition for polynomials with respect to the Dunkl harmonic functions. In Clifford analysis, a Dunkl version of the Dirac operator was introduced and studied by P. Cerejeiras, U. Kähler and G. Ren. The aim of the article is to describe an analogue of the Fischer decomposition for solutions of the Dunkl Dirac operator. The main methods used are coming from representation theory, in particular, from ideas connected with Howe dual pairs.
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This paper is dedicated to the memory of our friend and colleague Jarolim Bureš to recall our long lasting cooperation on many topics in mathematics
The work presented here is a part of the research project MSM 0021620839 and was supported also by the grant GA ČR 201/05/2117.
Received: October, 2007. Accepted: February, 2008.
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Ørsted, B., Somberg, P. & Souček, V. The Howe Duality for the Dunkl Version of the Dirac Operator. AACA 19, 403–415 (2009). https://doi.org/10.1007/s00006-009-0166-3
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DOI: https://doi.org/10.1007/s00006-009-0166-3