Abstract
We study the asymptotic behaviour of random integer partitions under a new probability law that we introduce, the Plancherel–Hurwitz measure. This distribution, which has a natural definition in terms of Young tableaux, is a deformation of the classical Plancherel measure, which appears naturally in the context of Hurwitz numbers, enumerating certain transposition factorisations in symmetric groups.
We study a regime in which the number of factors in the underlying factorisations grows linearly with the order of the group, and the corresponding topological objects, Hurwitz maps, are of high genus. We prove that the limiting behaviour exhibits a new, twofold, phenomenon: the first part becomes very large, while the rest of the partition has the standard Vershik–Kerov–Logan–Shepp limit shape. As a consequence, we obtain asymptotic estimates for unconnected Hurwitz numbers with linear Euler characteristic, which we use to study random Hurwitz maps in this regime. This result can also be interpreted as the return probability of the transposition random walk on the symmetric group after linearly many steps.
Funding Statement
This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. ERC-2016-STG 716083 “CombiTop”).
BL is supported by the Knut and Alice Wallenberg foundation.
GC is supported by the grant ANR-19-CE48-0011 “COMBINÉ,” GC and HW by the grant ANR-18-CE40-0033 “DIMERS.”
Acknowledgments
We thank Philippe Biane, Jérémie Bouttier and Andrea Sportiello for insightful conversations.
Citation
Guillaume Chapuy. Baptiste Louf. Harriet Walsh. "Random partitions under the Plancherel–Hurwitz measure, high-genus Hurwitz numbers and maps." Ann. Probab. 52 (4) 1225 - 1252, July 2024. https://doi.org/10.1214/23-AOP1651
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