Canonical Basis and Macdonald Polynomials

Abstract

In the basic representation of Uq(sl(2)) realized via the algebra of symmetric functions we compare the canonical basis with the basis of Macdonald polynomials with q=t2. We show that the Macdonald polynomials are invariant with respect to the bar involution defined abstractly on the representations of quantum groups. We also prove that the Macdonald scalar product coincides with the abstract Kashiwara form. This implies, in particular, that the Macdonald polynomials form an intermediate basis between the canonical basis and the dual canonical basis, and the coefficients of the transition matrix are necessarily bar invariant. We also discuss the positivity and integrality of these coefficients. For level k, we expect a similar relation between the canonical basis and Macdonald polynomials with q2=tk.

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