Null controllability of parabolic equations with interior degeneracy and one-sided control

Abstract

For α∈ (0,2) we study the null controllability of the parabolic operator Pu= ut - ( x α ux)x (1<x<1), which degenerates at the interior point x=0, for locally distributed controls acting only one side of the origin (that is, on some interval (a,b) with 0<a<b<1). Our main results guarantees that P is null controllable if and only if it is weakly degenerate, that is, α ∈ (0,1). So, in order to steer the system to zero, one needs controls to act on both sides of the point of degeneracy in the strongly degenerate case α∈ [1,2). Our approach is based on spectral analysis and the moment method. Indeed, we completely describe the eigenvalues and eigenfunctions of the associated stationary operator in terms of Bessel functions and their zeroes for both weakly and strongly degenerate problems. Hence, we obtain lower L2 bounds for the eigenfunctions on the control region in the case α ∈ [0,1) and deduce the lack of observability in the case of α ∈ [1,2). We also provide numerical evidence to illustrate our theoretical results.