Abstract EN:

In my thesis, we study some singular perturbation problems (i. E characterized by the presence of a small parameter) which develop boundary layers in some conditions more delicate than usually, namely when the limit solution is not regular. I consider then two classes of regular problems associated to Laplacian and bilaplacian, and a nonlinear problem derived from the Plateau problem (minimal surfaces), for which the limit function has an infinite normal derivative on some parts of the boundary of the domain. The first part of this thesis is concerned with the study of two singular linear models associated to non classical singular perturbations. In fact, the presence of a small parameter in the partial differential equations involve the appearance of classical boundary layers near the boundary for the regularized solution. However, if we consider moreover a discontinuous source function (even a distribution), we note the appearance of non classical boundary layers in the interior of the domain; the study of these boundary layers consists the main object of this first part. In the second part of my thesis, i am interesting to study the minimal surfaces problem on a domain formed by two concentric circles. For some boundary data, this problem do not have any solution and its weak solution called "the generalized solution" has an infinite gradient. To solve this difficulty, we introduce an elliptic regularsation which involve boundary layers near the boundary. The main result of this part consists to give some representation formulas of the solutions, of some approximate solutions, and some estimates of the order of convergence.