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On the number of commutation classes of the longest element in the symmetric group

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 Added by Dustin Story
 Publication date 2016
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and research's language is English




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Using the standard Coxeter presentation for the symmetric group $S_n$, two reduced expressions for the same group element are said to be commutation equivalent if we can obtain one expression from the other by applying a finite sequence of commutations. The resulting equivalence classes of reduced expressions are called commutation classes. How many commutation classes are there for the longest element in $S_n$?



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We prove that the expected number of braid moves in the commutation class of the reduced word $(s_1 s_2 cdots s_{n-1})(s_1 s_2 cdots s_{n-2}) cdots (s_1 s_2)(s_1)$ for the long element in the symmetric group $mathfrak{S}_n$ is one. This is a variant of a similar result by V. Reiner, who proved that the expected number of braid moves in a random reduced word for the long element is one. The proof is bijective and uses X. Viennots theory of heaps and variants of the promotion operator. In addition, we provide a refinement of this result on orbits under the action of even and odd promotion operators. This gives an example of a homomesy for a nonabelian (dihedral) group that is not induced by an abelian subgroup. Our techniques extend to more general posets and to other statistics.
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