Local limits of descent-biased permutations and trees
Abstract
We study two related probabilistic models of permutations and trees biased by their number of descents. Here, a descent in a permutation σ is a pair of consecutive elements σ(i), σ(i+1) such that σ(i) > σ(i+1). Likewise, a descent in a rooted tree with labelled vertices is a pair of a parent vertex and a child such that the label of the parent is greater than the label of the child. For some nonnegative real number q, we consider the probability measures on permutations and on rooted labelled trees of a given size where each permutation or tree is chosen with a probability proportional to qnumber of descents. In particular, we determine the asymptotic distribution of the first elements of permutations under this model. Different phases can be observed based on how q depends on the number of elements n in our permutations. The results on permutations then allow us to characterize the local limit of descent-biased rooted labelled trees.
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