Harmonics on the Quantum Euclidean Space Related to the Quantum Orthogonal Group

Details Harmonics on the Quantum Euclidean Space Related to the Quantum Orthogonal Group Harmonics on the Quantum Euclidean Space Related to the Quantum Orthogonal Group

2003-02-11

arxiv.org/abs/math/0302119v1

Mathematics

Quantum Algebra

17 pages, LaTeX

Scientific paper

The aim of this paper is to study harmonic polynomials on the quantum Euclidean space E^N_q generated by elements x_i, i=1,2,...,N, on which the quantum group SO_q(N) acts. The harmonic polynomials are defined as solutions of the equation \Delta_q p=0, where p is a polynomial in x_i, i=1,2,...,N, and the q-Laplace operator \Delta_q is determined in terms of the differential operators on E^N_q. The projector H_m: {cal A}_m\to {\cal H}_{m} is constructed, where {\cal A}_{m} and {\cal H}_m are the spaces of homogeneous of degree m polynomials and homogeneous harmonic polynomials, respectively. By using these projectors, a q-analogue of the classical zonal polynomials and associated spherical polynomials with respect to the quantum subgroup SO_q(N-2) are constructed. The associated spherical polynomials constitute an orthogonal basis of {\cal H}_m. These polynomials are represented as products of polynomials depending on q-radii and x_j, x_{j'}, j'=N-j+1. This representation is in fact a q-analogue of the classical separation of variables. The dual pair (U_q(sl_2), U_q(so_n)) is related to the action of SO_q(N) on E^N_q. Decomposition into irreducible constituents of the representation of the algebra U_q(sl_2)\times U_q(so_n) defined by the action of this algebra on the space of all polynomials on E^N_q is given.

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