A Nonlinear Parabolic Problem in an Exterior Domain

A new method, based on the Kelvin transformation and the Fokas integral method, is employed for solving analytically a potential problem in a non-convex unbounded domain of R 2 , assuming the Neumann boundary condition. Taking advantage of the property of the Kelvin transformation to preserve harmon

This paper is a contribution on the inhomogeneous problem where Ω = R N \ω is an exterior domain in R N , ω ⊂ R N is a bounded domain with a smooth boundary and N > 2. λ > 0, μ > 0 and p > 1 are given constants. f (x) ∈ L ∞ (Ω ) and K (x) are given locally Hölder continuous functions in Ω , and K (

The paper deals with the Dirichlet problem for the Stokes linear equation in a domain exterior to an open surface. With the help of the theory of boundary integral (pseudo-differential) equations uniqueness and existence theorems are proved in the Bessel-potential and Besov spaces and C?-smoothness

A new domain decomposition method is presented for the exterior Helmholtz problem. The nonlocal Dirichlet-to-Neumann (DtN) map is used as a nonreflecting condition on the outer computational boundary. The computational domain is divided into nonoverlapping subdomains with Sommerfeld-type conditions