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Combinatorial Proof of the Inversion Formula on the Kazhdan-Lusztig R-Polynomials

Let $W$ be a Coxeter group, and for $u,v\in W$, let $R_{u,v}(q)$ be the Kazhdan-Lusztig $R$-polynomial indexed by $u$ and $v$. In this paper, we present a combinatorial proof of the inversion formula on $R$-polynomials due to Kazhdan and Lusztig. This problem was raised by Brenti. Based on Dyer's combinatorial interpretation of the $R$-polynomials in terms of increasing Bruhat paths, we reformulate the inversion formula in terms of $V$-paths. By a $V$-path from $u$ to $v$ with bottom $w$ we mean a pair $(Δ_1,Δ_2)$ of Bruhat paths such that $Δ_1$ is a decreasing path from $u$ to $w$ and $Δ_2$ is an increasing path from $w$ to $v$. We find a reflection principle on $V$-paths, which leads to a combinatorial proof of the inversion formula. Moreover, we give two applications of the reflection principle. First, we restrict this involution to $V$-paths from $u$ to $v$ with maximal length. This provides a direct interpretation for the equi-distribution property that any nontrivial interval $[u,v]$ has as many elements of even length as elements of odd length. This property was obtained by Verma in his derivation of the Möbius function of the Bruhat order. Second, using the reflection principle for the symmetric group, we obtain a refinement of the inversion formula by restricting the summation to permutations ending with a given element.