Cyclic sieving

In the Reiner–Stanton–White paper, the following example is given:

Let α be a composition of n, and let W(α) be the set of all words of length n with α_i letters equal to i. A descent of a word w is any index j such that ${\displaystyle w_{j}>w_{j+1}}$. Define the major index ${\displaystyle \operatorname {maj} (w)}$ on words as the sum of all descents.

The triple ${\displaystyle (X_{n},C_{n-1},{\frac {1}{[n+1]_{q}}}\left[{2n \atop n}\right]_{q})}$ exhibit a cyclic sieving phenomenon, where ${\displaystyle X_{n}}$ is the set of non-crossing (1,2)-configurations of [n − 1]. [3]

Let λ be a rectangular partition of size n, and let X be the set of standard Young tableaux of shape λ. Let C = Z/nZ act on X via promotion. Then ${\displaystyle (X,C,{\frac {[n]!_{q}}{\prod _{(i,j)\in \lambda }[h_{ij}]_{q}}})}$ exhibit the cyclic sieving phenomenon. Note that the polynomial is a q-analogue of the hook length formula.

Furthermore, let λ be a rectangular partition of size n, and let X be the set of semi-standard Young tableaux of shape λ. Let C = Z/kZ act on X via k-promotion. Then ${\displaystyle (X,C,q^{-\kappa (\lambda )}s_{\lambda }(1,q,q^{2},\dotsc ,q^{k-1}))}$ exhibit the cyclic sieving phenomenon. Here, ${\displaystyle \kappa (\lambda )=\sum _{i}(i-1)\lambda _{i}}$ and s_λ is the Schur polynomial. [4]

An increasing tableau is a semi-standard Young tableau, where both rows and columns are strictly increasing, and the set of entries is of the form ${\displaystyle 1,2,\dotsc ,\ell }$ for some ${\displaystyle \ell }$. Let ${\displaystyle Inc_{k}(2\times n)}$ denote the set of increasing tableau with two rows of length n, and maximal entry ${\displaystyle 2n-k}$. Then ${\displaystyle (\operatorname {Inc} _{k}(2\times n),C_{2n-k},q^{n+{\binom {k}{2}}}{\frac {\left[{n-1 \atop k}\right]_{q}\left[{2n-k \atop n-k-1}\right]_{q}}{[n-k]_{q}}})}$ exhibit the cyclic sieving phenomenon, where ${\displaystyle C_{2n-k}}$ act via K-promotion.[5]

Let ${\displaystyle S_{\lambda ,j}}$ be the set of permutations of cycle type λ and exactly j excedances. Let ${\displaystyle a_{\lambda ,j}(q)=\sum _{\sigma \in S_{\lambda ,j}}q^{\operatorname {maj} (\sigma )-\operatorname {exc} (\sigma )}}$, and let ${\displaystyle C_{n}}$ act on ${\displaystyle S_{\lambda ,j}}$ by conjugation.

Then ${\displaystyle (S_{\lambda ,j},C_{n},a_{\lambda ,j}(q))}$ exhibit the cyclic sieving phenomenon. [6]