Error estimates for nonlinear reaction-diffusion systems involving different diffusion length scales

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Error_estimates_for_nonlinear_reaction-diffusion_systems_involving_different_diffusion_length_scales.pdf (1.05 MB)

Date

2016

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Editor

Advisor

Volume

727

Issue

Journal

Journal of physics : Conference Series

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Book Title

Publisher

Bristol : IOP Publ.

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Link to publishers' Version

https://doi.org/10.1088/1742-6596/727/1/012013

Abstract

We derive quantitative error estimates for coupled reaction-diffusion systems, whose coefficient functions are quasi-periodically oscillating modeling the microstructure of the underlying macroscopic domain. The coupling arises via nonlinear reaction terms and we allow for different diffusion length scales, i.e. whereas some species have characteristic diffusion length of order 1 other species may diffuse with the order of the characteristic microstructure-length scale. We consider an effective system, which is rigorously obtained via two-scale convergence, and we derive quantitative error estimates.

Description

Keywords

Diffusion in liquids, Dynamic models, Errors, Hysteresis, Microstructure, Quantum theory, Coefficient functions, Coupled reaction-diffusion systems, Diffusion length, Effective systems, Error estimates, Macroscopic domains, Nonlinear reaction, Two scale convergence, Diffusion

Keywords GND

Konferenzschrift

Conference

MURPHYS-HSFS-2014: 7th International Workshop on MUlti-Rate Processes & HYSteresis (MURPHYS) & the 2nd International Workshop on Hysteresis and Slow-Fast Systems (HSFS) 7–11 April 2014, Berlin, Germany

Publication Type

Article

Version

publishedVersion

URI

https://oa.tib.eu/renate/handle/123456789/8951
 https://doi.org/10.34657/7989

Collections

Physik
Mathematik

License

CC BY 3.0 Unported
https://creativecommons.org/licenses/by/3.0/