Wangru Sun
Published 2018-04-10, updated 2018-04-11Version 2
The bead model is a random point field on $\mathbb{Z}\times\mathbb{R}$ which can be viewed as a scaling limit of dimer model. We prove that, in the scaling limit, the normalized height function of a uniformly chosen random bead configuration lies in an arbitrarily small neighborhood of a surface $h_0$ that maximizes some functional which we call as entropy. We also prove that the limit shape $h_0$ is a scaling limit of the limit shapes of a properly chosen sequence of dimer models. There is a map from bead configurations to standard tableaux of a (skew) Young diagram, and the map preserves uniform measures, and our results of the bead model yield the existence of the limit shape of a random standard Young tableau.
Comments: 67 pages, 15 figures
The bead model and limit behaviors of dimer models
Unified derivation of the limit shape for multiplicative ensembles of random integer partitions with equiweighted parts
Limit shapes of multiplicative measures associated with coagulation-fragmentation processes and random combinatorial structures
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