Chemical reactions as \(\Gamma\)-limit of diffusion (Q2902838)
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scientific article; zbMATH DE number 6069979
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Chemical reactions as \(\Gamma\)-limit of diffusion |
scientific article; zbMATH DE number 6069979 |
Statements
22 August 2012
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scale-bridging
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upscaling
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high-energy limit
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Dirichlet forms
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Mosco convergence
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variational evolution equations
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Kramers-Smoluchowski equation
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Kramers formula
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Chemical reactions as \(\Gamma\)-limit of diffusion (English)
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The authors explore the high activation energy limit of the Kramers-Smoluchowski equation (a special form of the Fokker-Planck equation) that describes the evolution of the probability density of a particle performing a Brownian motion under a specially scaled chemical potential (in terms of a small length parameter \(\epsilon\)). They prove that, in the limit of \(\epsilon\to 0\), solutions of the Kramers-Smoluchowski equation converge to solutions of a linear reaction-diffusion equation. In this way, they succeed to give a rigorous derivation of the well-known Kramers formula and show mathematically that (under certain structural assumptions on the reaction part) diffusion and reaction can be embedded in the same (variational) framework.
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