Mathematics – Analysis of PDEs
Scientific paper
2011-12-02
Mathematics
Analysis of PDEs
Scientific paper
We study Neumann type boundary value problems for nonlocal equations related to L\'evy processes. Since these equations are nonlocal, Neumann type problems can be obtained in many ways, depending on the kind of reflection we impose on the outside jumps. To focus on the new phenomenas and ideas, we consider different models of reflection and rather general non-symmetric L\'evy measures, but only simple linear equations in half-space domains. We derive the Neumann/reflection problems through a truncation procedure on the L\'evy measure, and then we develop a viscosity solution theory which includes comparison, existence, and some regularity results. For problems involving fractional Laplacian type operators like e.g.$(-\Delta)^{\alpha/2}$, we prove that solutions of all our nonlocal Neumann problems converge as alpha goes to 2 to the solution of a classical Neumann problem. The reflection models we consider include cases where the underlying L\'evy processes are reflected, projected, and/or censored upon exiting the domain.
Barles Guy
Chasseigne Emmanuel
Georgelin Christine
Jakobsen Espen
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