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Permutoric promotion: gliding globs, sliding stones, and colliding coins
Abstract
Defant recently introduced toric promotion, an operator that acts on the labelings of a graph \(G\) and serves as a cyclic analogue of Schützenberger's promotion operator. Toric promotion is defined as the composition of certain toggle operators, listed in a natural cyclic order. We consider more general permutoric promotion operators, which are defined as compositions of the same toggles, but in permuted orders. We settle a conjecture of Defant by determining the orders of all permutoric promotion operators when \(G\) is a path graph. In fact, we completely characterize the orbit structures of these operators, showing that they satisfy the cyclic sieving phenomenon. The first half of our proof requires us to introduce and analyze new broken promotion operators, which can be interpreted via globs of liquid gliding on a path graph. For the latter half of our proof, we reformulate the dynamics of permutoric promotion via stones sliding along a cycle graph and coins colliding with each other on a path graph.
Mathematics Subject Classifications: 05E18
Keywords: Promotion, toric promotion, Coxeter element, cyclic sieving phenomenon
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