Higher regularity for solutions to elliptic systems in divergence form subject to mixed boundary conditions
Haller-Dintelmann R, Meinlschmidt H, Wollner W (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Book Volume: 198
Pages Range: 1227-1241
Journal Issue: 4
DOI: 10.1007/s10231-018-0818-9
Abstract
This work combines results from operator and interpolation theory to show that elliptic systems in divergence form admit maximal elliptic regularity on the Bessel potential scale HDs-1(Ω) for s> 0 sufficiently small, if the coefficient in the main part satisfies a certain multiplier property on the spaces Hs(Ω). Ellipticity is enforced by assuming a Gårding inequality, and the result is established for spaces incorporating mixed boundary conditions with very low regularity requirements for the underlying spatial set. To illustrate the applicability of our results, two examples are provided. Firstly, a phase-field damage model is given as a practical application where higher differentiability results are obtained as a consequence to our findings. These are necessary to show an improved numerical approximation rate. Secondly, it is shown how the maximal elliptic regularity result can be used in the context of quasilinear parabolic equations incorporating quadratic gradient terms.
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Germany (DE)
Austria (AT)How to cite
APA:
Haller-Dintelmann, R., Meinlschmidt, H., & Wollner, W. (2019). Higher regularity for solutions to elliptic systems in divergence form subject to mixed boundary conditions. Annali Di Matematica Pura Ed Applicata, 198(4), 1227-1241. https://dx.doi.org/10.1007/s10231-018-0818-9
MLA:
Haller-Dintelmann, Robert, Hannes Meinlschmidt, and Winnifried Wollner. "Higher regularity for solutions to elliptic systems in divergence form subject to mixed boundary conditions." Annali Di Matematica Pura Ed Applicata 198.4 (2019): 1227-1241.
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