Uniform Stability and Uniform-in-Time Mean-Field Limit of the Thermodynamic Kuramoto Model

Seung Yeal Ha; Myeongju Kang; Hansol Park; Tommaso Ruggeri; Woojoo Shim

doi:10.1090/qam/1588

Uniform Stability and Uniform-in-Time Mean-Field Limit of the Thermodynamic Kuramoto Model

Seung Yeal Ha, Myeongju Kang, Hansol Park, Tommaso Ruggeri, Woojoo Shim

Department of Mathematics Education

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Abstract

We consider the thermodynamic Kuramoto model proposed in [27]. For each oscillator in thermodynamic Kuramoto model, there is a coupling effect between the phase and the temperature field. For such a model, we study a uniform stability and uniform-in-time mean-field limit to the corresponding kinetic equation. For this, we first derive a uniform l^p-stability of the thermodynamic Kuramoto model with respect to initial data by directly estimating the temporal evolution of l^p-distance between two admissible solutions to the particle thermodynamic Kuramoto model. In a large-oscillator limit, the Vlasov type mean-field equation can be rigorously derived using the BBGKY hierarchy, uniform stability estimate, and particle-in-cell method. We construct unique global-in-time measure-valued solutions to the derived kinetic equation and also derive a uniform-in-time stability estimate and emergent estimates.

Original language	English
Pages (from-to)	445-478
Number of pages	34
Journal	Quarterly of Applied Mathematics
Volume	79
Issue number	3
DOIs	https://doi.org/10.1090/qam/1588
State	Published - Sep 2021

Keywords

The Kuramoto model
kinetic equation
mean-field limit
synchronization
thermodynamics
uni-form stability

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10.1090/qam/1588

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title = "Uniform Stability and Uniform-in-Time Mean-Field Limit of the Thermodynamic Kuramoto Model",

abstract = "We consider the thermodynamic Kuramoto model proposed in [27]. For each oscillator in thermodynamic Kuramoto model, there is a coupling effect between the phase and the temperature field. For such a model, we study a uniform stability and uniform-in-time mean-field limit to the corresponding kinetic equation. For this, we first derive a uniform lp-stability of the thermodynamic Kuramoto model with respect to initial data by directly estimating the temporal evolution of lp-distance between two admissible solutions to the particle thermodynamic Kuramoto model. In a large-oscillator limit, the Vlasov type mean-field equation can be rigorously derived using the BBGKY hierarchy, uniform stability estimate, and particle-in-cell method. We construct unique global-in-time measure-valued solutions to the derived kinetic equation and also derive a uniform-in-time stability estimate and emergent estimates.",

keywords = "The Kuramoto model, kinetic equation, mean-field limit, synchronization, thermodynamics, uni-form stability",

author = "Ha, {Seung Yeal} and Myeongju Kang and Hansol Park and Tommaso Ruggeri and Woojoo Shim",

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AU - Ha, Seung Yeal

AU - Kang, Myeongju

AU - Park, Hansol

AU - Ruggeri, Tommaso

AU - Shim, Woojoo

PY - 2021/9

Y1 - 2021/9

N2 - We consider the thermodynamic Kuramoto model proposed in [27]. For each oscillator in thermodynamic Kuramoto model, there is a coupling effect between the phase and the temperature field. For such a model, we study a uniform stability and uniform-in-time mean-field limit to the corresponding kinetic equation. For this, we first derive a uniform lp-stability of the thermodynamic Kuramoto model with respect to initial data by directly estimating the temporal evolution of lp-distance between two admissible solutions to the particle thermodynamic Kuramoto model. In a large-oscillator limit, the Vlasov type mean-field equation can be rigorously derived using the BBGKY hierarchy, uniform stability estimate, and particle-in-cell method. We construct unique global-in-time measure-valued solutions to the derived kinetic equation and also derive a uniform-in-time stability estimate and emergent estimates.

AB - We consider the thermodynamic Kuramoto model proposed in [27]. For each oscillator in thermodynamic Kuramoto model, there is a coupling effect between the phase and the temperature field. For such a model, we study a uniform stability and uniform-in-time mean-field limit to the corresponding kinetic equation. For this, we first derive a uniform lp-stability of the thermodynamic Kuramoto model with respect to initial data by directly estimating the temporal evolution of lp-distance between two admissible solutions to the particle thermodynamic Kuramoto model. In a large-oscillator limit, the Vlasov type mean-field equation can be rigorously derived using the BBGKY hierarchy, uniform stability estimate, and particle-in-cell method. We construct unique global-in-time measure-valued solutions to the derived kinetic equation and also derive a uniform-in-time stability estimate and emergent estimates.

KW - The Kuramoto model

KW - kinetic equation

KW - mean-field limit

KW - synchronization

KW - thermodynamics

KW - uni-form stability

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Uniform Stability and Uniform-in-Time Mean-Field Limit of the Thermodynamic Kuramoto Model

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Keywords

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