Inverse initial problem for fractional reaction-diffusion equation with nonlinearities
Abstract
The initial inverse problem of finding solutions and their initial values () appearing in a general class of fractional reaction-diffusion equations from the knowledge of solutions at the final time (). Our work focuses on the existence and regularity of mild solutions in two cases: \begin{itemize} \item[--] The first case: The nonlinearity is globally Lipschitz and uniformly bounded which plays important roles in PDE theories, and especially in numerical analysis. \item[--] The second case: The nonlinearity is locally critical which widely arises from the Navier-Stokes, Schr\"odinger, Burgers, Allen-Cahn, Ginzburg-Landau equations, etc. \end{itemize} Our solutions are local-in-time and are derived via fixed point arguments in suitable functional spaces. The key idea is to combine the theories of Mittag-Leffler functions and fractional Sobolev embeddings. To firm the effectiveness of our methods, we finally apply our main results to time fractional Navier-Stokes and Allen-Cahn equations.
Keywords
Cite
@article{arxiv.1910.09006,
title = {Inverse initial problem for fractional reaction-diffusion equation with nonlinearities},
author = {Tran Bao Ngoc and Yavar Kian and Nguyen Huy Tuan},
journal= {arXiv preprint arXiv:1910.09006},
year = {2021}
}
Comments
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