Current fluctuations in the Dyson gas

Rahul Dandekar; P. L. Krapivsky; Kirone Mallick

doi:10.1103/PhysRevE.110.064153

Current fluctuations in the Dyson gas

Rahul Dandekar
, P. L. Krapivsky
, Kirone Mallick

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

Abstract

We study large fluctuations of the current in a Dyson gas, a one-dimensional system of particles interacting through a logarithmic potential and subjected to random noise. We adapt the macroscopic fluctuation theory to the Dyson gas and derive two coupled partial differential equations describing the evolution of the density and momentum. These equations are nonlinear and nonlocal, and the "boundary"conditions are mixed: some at the initial and others at the final time. If the initial condition can fluctuate (annealed setting), this boundary-value problem is tractable. We compute the cumulant generating function encoding all the cumulants of the current.

Original language	English
Article number	064153
Journal	Physical Review E
Volume	110
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevE.110.064153
Publication status	Published - 1 Dec 2024
Externally published	Yes

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10.1103/PhysRevE.110.064153

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title = "Current fluctuations in the Dyson gas",

abstract = "We study large fluctuations of the current in a Dyson gas, a one-dimensional system of particles interacting through a logarithmic potential and subjected to random noise. We adapt the macroscopic fluctuation theory to the Dyson gas and derive two coupled partial differential equations describing the evolution of the density and momentum. These equations are nonlinear and nonlocal, and the {"}boundary{"}conditions are mixed: some at the initial and others at the final time. If the initial condition can fluctuate (annealed setting), this boundary-value problem is tractable. We compute the cumulant generating function encoding all the cumulants of the current.",

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N2 - We study large fluctuations of the current in a Dyson gas, a one-dimensional system of particles interacting through a logarithmic potential and subjected to random noise. We adapt the macroscopic fluctuation theory to the Dyson gas and derive two coupled partial differential equations describing the evolution of the density and momentum. These equations are nonlinear and nonlocal, and the "boundary"conditions are mixed: some at the initial and others at the final time. If the initial condition can fluctuate (annealed setting), this boundary-value problem is tractable. We compute the cumulant generating function encoding all the cumulants of the current.

AB - We study large fluctuations of the current in a Dyson gas, a one-dimensional system of particles interacting through a logarithmic potential and subjected to random noise. We adapt the macroscopic fluctuation theory to the Dyson gas and derive two coupled partial differential equations describing the evolution of the density and momentum. These equations are nonlinear and nonlocal, and the "boundary"conditions are mixed: some at the initial and others at the final time. If the initial condition can fluctuate (annealed setting), this boundary-value problem is tractable. We compute the cumulant generating function encoding all the cumulants of the current.

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DO - 10.1103/PhysRevE.110.064153

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SN - 2470-0045

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JO - Physical Review E

JF - Physical Review E

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Current fluctuations in the Dyson gas

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