arXiv:2301.03383 Abstract | arXiv Analytics

arXiv:2301.03383 [math.AP]Abstract References Reviews Resources

On the continuity of the solution map of the Euler-Poincaré equations in Besov spaces

Published 2022-11-09Version 1

By constructing a series of perturbation functions through localization in the Fourier domain and translation, we show that the data-to-solution map for the Euler-Poincar\'e equations is nowhere uniformly continuous in $B^s_{p,r}(\mathbb{R} ^d)$ with $s>\max\{1+\frac d2,\frac32\}$ and $(p,r)\in (1,\infty)\times [1,\infty)$. This improves our previous result which shows the data-to-solution map for the Euler-Poincar\'e equations is non-uniformly continuous on a bounded subset of $B^s_{p,r}(\mathbb{R} ^d)$ near the origin.

Comments: 16 pages

Categories: math.AP

Subjects: 35Q35, 35Q51, 35L30

Keywords: besov spaces, continuity, euler-poincare equations, data-to-solution map, fourier domain

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arXiv:2301.03383 [math.AP]Abstract References Reviews Resources

On the continuity of the solution map of the Euler-Poincaré equations in Besov spaces

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arXiv:2301.03383 [math.AP]AbstractReferencesReviewsResources

On the continuity of the solution map of the Euler-Poincaré equations in Besov spaces

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arXiv:2301.03383 [math.AP]Abstract References Reviews Resources