arXiv:2301.05503 Abstract | arXiv Analytics

arXiv:2301.05503 [math.NA]Abstract References Reviews Resources

Fractional Diffusion in the full space: decay and regularity

Published 2023-01-13Version 1

We consider fractional partial differential equations posed on the full space $\R^d$. Using the well-known Caffarelli-Silvestre extension to $\R^d \times \R^+$ as equivalent definition, we derive existence and uniqueness of weak solutions. We show that solutions to a truncated extension problem on $\R^d \times (0,\YY)$ converge to the solution of the original problem as $\YY \rightarrow \infty$. Moreover, we also provide an algebraic rate of decay and derive weighted analytic-type regularity estimates for solutions to the truncated problem. These results pave the way for a rigorous analysis of numerical methods for the full space problem, such as FEM-BEM coupling techniques.

Categories: math.NA, cs.NA

Subjects: 35R11, 35B65, 65N15

Keywords: fractional diffusion, fractional partial differential equations, well-known caffarelli-silvestre extension, full space problem, derive weighted analytic-type regularity estimates

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