Nonlocal and nonlinear evolution equations in perforated domains

Abstract: In this work we analyze the behavior of the solutions to nonlocal evolution equations of the form $u_t(x,t) = \int J(x-y) u(y,t) \, dy - h_\epsilon(x) u(x,t) + f(x,u(x,t))$ with $x$ in a perturbed domain $\Omega^\epsilon \subset \Omega$ which is thought as a fixed set $\Omega$ from where we remove a subset $A^\epsilon$ called the holes. We choose an appropriated families of functions $h_\epsilon \in L^\infty$ in order to deal with both Neumann and Dirichlet conditions in the holes setting a Dirichlet condition outside $\Omega$. Moreover, we take $J$ as a non-singular kernel and $f$ as a nonlocal nonlinearity. % Under the assumption that the characteristic functions of $\Omega^\epsilon$ have a weak limit, we study the limit of the solutions providing a nonlocal homogenized equation.