Renormalised solutions to reaction-diffusion systems with interface conditions: Global existence and weak-strong uniqueness
Abstract
We introduce an extension of the concept of renormalised solutions for entropy-dissipating reaction-diffusion systems due to J. Fischer (Arch. Ration. Mech. Anal. 218, 2015) to systems coupled by nonlinear interface conditions. For this notion of solution, we establish global existence as well as a weak-strong stability estimate. Our framework allows to handle entropy-dissipating interfacial transmission rates without growth restrictions, including power-law nonlinearities as arising in the thermodynamic modelling of dissipative bulk-interface systems via generalised gradient structures. Our analysis relies on suitable extensions of the species' densities across the interface as well as on a non-local truncated variant of the relative entropy- preprint
- Text
- doc-type:preprint
- article
- ddc:510
- Erhaltungssätze und Bilanzgleichungen für Multikomponentensysteme
- 35K51
- 35K57
- Analysis gewöhnlicher und partieller stochastischer Differentialgleichungen
- Mehrskalenmodellierung, asymptotische Analysis und Hybridmodelle
- Systeme partieller Differentialgleichungen: Modellierung, numerische Analysis und Simulation
- Dissipative bulk-interface reaction-diffusion systems
- renormalised solutions
- relative entropy method
- reflection technique
- generalised gradient structure
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Last time updated on 12/05/2026
This paper was published in Publications Server of the Weierstrass Institute for Applied Analysis and Stochastics.
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