Derivation of coupled KPZ-burgers equation from multi-species zero-range processes

C. Bernardin; T. Funaki; S. Sethuraman

doi:10.1214/20-AAP1639

Derivation of coupled KPZ-burgers equation from multi-species zero-range processes

C. Bernardin, T. Funaki, S. Sethuraman

School of Fundamental Science and Engineering

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

2 Citations (Scopus)

Abstract

We consider the fluctuation fields of multi-species weakly-asymmetric zero-range interacting particle systems in one dimension, where the mass density of each species is conserved. Although such fields have been studied in systems with a single species, the multi-species setting is much less understood. Among other results, we show that when the system starts from stationary states with a particular property, the scaling limits of the multi-species fluctuation fields, seen in a characteristic traveling frame, solve a coupled Burgers SPDE, which is a formal spatial gradient of a coupled KPZ equation.

Original language	English
Pages (from-to)	1966-2017
Number of pages	52
Journal	Annals of Applied Probability
Volume	31
Issue number	4
DOIs	https://doi.org/10.1214/20-AAP1639
Publication status	Published - 2021 Aug

Keywords

Burgers
Coupled
Field
Fluctuation
Interacting
KPZ
Multi-species
Nonlinear fluctuating hydrodynamics
Particle system
Weakly asymmetric
Zero-range

ASJC Scopus subject areas

Statistics and Probability
Statistics, Probability and Uncertainty

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abstract = "We consider the fluctuation fields of multi-species weakly-asymmetric zero-range interacting particle systems in one dimension, where the mass density of each species is conserved. Although such fields have been studied in systems with a single species, the multi-species setting is much less understood. Among other results, we show that when the system starts from stationary states with a particular property, the scaling limits of the multi-species fluctuation fields, seen in a characteristic traveling frame, solve a coupled Burgers SPDE, which is a formal spatial gradient of a coupled KPZ equation.",

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note = "Funding Information: Funding. The work of C. Bernardin has been supported by the projects EDNHS ANR-14-CE25-0011, LSD ANR-15-CE40-0020-01 of the French National Research Agency (ANR), and funding from the European Research Council (ERC) under the European Union{\textquoteright}s Horizon 2020 research and innovative programme (grant agreement No 715734). T. Fu-naki was supported in part by JSPS KAKENHI, Grant-in-Aid for Scientific Researches (A) 18H03672 and (S) 16H06338. S. Sethuraman was supported by grant ARO W911NF-181-0311, a Simons Foundation Sabbatical grant, and by a Japan Society for the Promotion of Science Fellowship. Publisher Copyright: {\textcopyright} Institute of Mathematical Statistics, 2021",

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AU - Funaki, T.

AU - Sethuraman, S.

N1 - Funding Information: Funding. The work of C. Bernardin has been supported by the projects EDNHS ANR-14-CE25-0011, LSD ANR-15-CE40-0020-01 of the French National Research Agency (ANR), and funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovative programme (grant agreement No 715734). T. Fu-naki was supported in part by JSPS KAKENHI, Grant-in-Aid for Scientific Researches (A) 18H03672 and (S) 16H06338. S. Sethuraman was supported by grant ARO W911NF-181-0311, a Simons Foundation Sabbatical grant, and by a Japan Society for the Promotion of Science Fellowship. Publisher Copyright: © Institute of Mathematical Statistics, 2021

PY - 2021/8

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AB - We consider the fluctuation fields of multi-species weakly-asymmetric zero-range interacting particle systems in one dimension, where the mass density of each species is conserved. Although such fields have been studied in systems with a single species, the multi-species setting is much less understood. Among other results, we show that when the system starts from stationary states with a particular property, the scaling limits of the multi-species fluctuation fields, seen in a characteristic traveling frame, solve a coupled Burgers SPDE, which is a formal spatial gradient of a coupled KPZ equation.

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KW - Coupled

KW - Field

KW - Fluctuation

KW - Interacting

KW - KPZ

KW - Multi-species

KW - Nonlinear fluctuating hydrodynamics

KW - Particle system

KW - Weakly asymmetric

KW - Zero-range

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Derivation of coupled KPZ-burgers equation from multi-species zero-range processes

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Keywords

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