Hydrodynamic Limit for an Evolutional Model of Two-Dimensional Young Diagrams

Tadahisa Funaki; Makiko Sasada

doi:10.1007/s00220-010-1082-z

Hydrodynamic Limit for an Evolutional Model of Two-Dimensional Young Diagrams

Tadahisa Funaki, Makiko Sasada

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

We construct dynamics of two-dimensional Young diagrams, which are naturally associated with their grandcanonical ensembles, by allowing the creation and annihilation of unit squares located at the boundary of the diagrams. The grandcanonical ensembles, which were introduced by Vershik [17], are uniform measures under conditioning on their size (or equivalently, area). We then show that, as the averaged size of the diagrams diverges, the corresponding height variable converges to a solution of a certain non-linear partial differential equation under a proper hydrodynamic scaling. Furthermore, the stationary solution of the limit equation is identified with the so-called Vershik curve. We discuss both uniform and restricted uniform statistics for the Young diagrams.

Original language	English
Pages (from-to)	335-363
Number of pages	29
Journal	Communications in Mathematical Physics
Volume	299
Issue number	2
DOIs	https://doi.org/10.1007/s00220-010-1082-z
Publication status	Published - 2010
Externally published	Yes

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Mathematical Physics

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title = "Hydrodynamic Limit for an Evolutional Model of Two-Dimensional Young Diagrams",

abstract = "We construct dynamics of two-dimensional Young diagrams, which are naturally associated with their grandcanonical ensembles, by allowing the creation and annihilation of unit squares located at the boundary of the diagrams. The grandcanonical ensembles, which were introduced by Vershik [17], are uniform measures under conditioning on their size (or equivalently, area). We then show that, as the averaged size of the diagrams diverges, the corresponding height variable converges to a solution of a certain non-linear partial differential equation under a proper hydrodynamic scaling. Furthermore, the stationary solution of the limit equation is identified with the so-called Vershik curve. We discuss both uniform and restricted uniform statistics for the Young diagrams.",

author = "Tadahisa Funaki and Makiko Sasada",

note = "Funding Information: JSPS Research Fellow and supported by the JSPS Grant 21-3656. Funding Information: Supported in part by the JSPS Grants (A) 18204007 and 21654021. ",

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AU - Sasada, Makiko

N1 - Funding Information: JSPS Research Fellow and supported by the JSPS Grant 21-3656. Funding Information: Supported in part by the JSPS Grants (A) 18204007 and 21654021.

PY - 2010

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N2 - We construct dynamics of two-dimensional Young diagrams, which are naturally associated with their grandcanonical ensembles, by allowing the creation and annihilation of unit squares located at the boundary of the diagrams. The grandcanonical ensembles, which were introduced by Vershik [17], are uniform measures under conditioning on their size (or equivalently, area). We then show that, as the averaged size of the diagrams diverges, the corresponding height variable converges to a solution of a certain non-linear partial differential equation under a proper hydrodynamic scaling. Furthermore, the stationary solution of the limit equation is identified with the so-called Vershik curve. We discuss both uniform and restricted uniform statistics for the Young diagrams.

AB - We construct dynamics of two-dimensional Young diagrams, which are naturally associated with their grandcanonical ensembles, by allowing the creation and annihilation of unit squares located at the boundary of the diagrams. The grandcanonical ensembles, which were introduced by Vershik [17], are uniform measures under conditioning on their size (or equivalently, area). We then show that, as the averaged size of the diagrams diverges, the corresponding height variable converges to a solution of a certain non-linear partial differential equation under a proper hydrodynamic scaling. Furthermore, the stationary solution of the limit equation is identified with the so-called Vershik curve. We discuss both uniform and restricted uniform statistics for the Young diagrams.

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Hydrodynamic Limit for an Evolutional Model of Two-Dimensional Young Diagrams

Abstract

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