Cherednik integrable system: eigenfunctions at generic eigenvalues
Abstract
Symmetric Macdonald polynomials of n variables provide eigenfunctions of the N-body trigonometric Ruijsenaars-Schneider integrable system at particular eigenvalues. In order to construct eigenfunctions with arbitrary eigenvalues, M. Noumi and J. Shiraishi used a recursion in N (branching rule) for the symmetric Macdonald polynomials and analytically continued them. This generated a power series, which is a part of triad (universal solution). In the present paper, we demonstrate that a similar procedure is available for another integrable system, N-body Cherednik system inspired by the DAHA of type A, which has non-symmetric Macdonald polynomials as its polynomial eigenfunctions. However, in this system, the generic eigenfunction is more complicated: it is not just a simple power series as in the Noumi-Shiraishi case, but has an involved structure with N! branches, each of them being a power series of the Noumi-Shiraishi type. As an illustration, we also provide explicit formulas for particular cases.
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