A recursion for a symmetric function generalization of the q-Dyson constant term identity
Copyright policy )A recursion for a symmetric function generalization of the q-Dyson constant term identity
In 2000, Kadell gave an orthogonality conjecture for a symmetric function generalization of the $q$-Dyson constant term identity or the Zeilberger--Bressoud $q$-Dyson theorem. The non-zero part of Kadell's orthogonality conjecture is a constant term identity indexed by a weak composition $v=(v_1,\dots,v_n)$ in the case when only one $v_i\neq 0$. This conjecture was first proved by K��rolyi, Lascoux and Warnaar in 2015. They further formulated a closed-form expression for the above mentioned constant term in the case when all the parts of $v$ are distinct. Recently we obtain a recursion for this constant term provided that the largest part of $v$ occurs with multiplicity one in $v$. In this paper, we generalize our previous result to all compositions $v$.
13 pages
- Central South University China (People's Republic of)
Symmetric functions and generalizations, Kadell's orthogonality conjecture, symmetric function, \(q\)-Dyson constant term identity, \(q\)-calculus and related topics, recursion, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), 05A30, 33D70, 05E05, Combinatorial identities, bijective combinatorics
Symmetric functions and generalizations, Kadell's orthogonality conjecture, symmetric function, \(q\)-Dyson constant term identity, \(q\)-calculus and related topics, recursion, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), 05A30, 33D70, 05E05, Combinatorial identities, bijective combinatorics
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