Some q-exponential formulas involving the double lowering operator for a tridiagonal pair

Abstract

Let K denote an algebraically closed field and let V denote a vector space over K with finite positive dimension. Let A,A* denote a tridiagonal pair on V. We assume that A,A* belongs to a family of tridiagonal pairs said to have q-Racah type. Let \Ui\i=0d and \Ui\i=0d denote the first and second split decompositions of V. In an earlier paper we introduced a double lowering operator :V V with the notable feature that both Ui⊂eq Ui-1 and Ui⊂eq Ui-1 for 0≤ i≤ d, where U-1=0 and U-1=0. In the same paper, we showed that there exists a unique linear transformation :V V such that (Ui)⊂eq Ui and ( -I)Ui⊂eq U0+U1+·s +Ui-1 for 0≤ i ≤ d. In the present paper, we show that can be expressed as a product of two linear transformations; one is a q-exponential in and the other is a q-1-exponential in . We view as a transition matrix from the first split decomposition of V to the second. Consequently, we view the q-1-exponential in as a transition matrix from the first split decomposition to a decomposition of V which we interpret as a kind of halfway point. This halfway point turns out to be the eigenspace decomposition of a certain linear transformation M. We discuss the eigenspace decomposition of M and give the actions of various operators on this decomposition.