Achieving energy permutation of modes in the Schr\"odinger equation with moving Dirac potentials

Abstract

In this work, we study the Schr\"odinger equation i∂t=-+η(t)Σj=1Jδx=aj(t) on L2((0,1),C) where η:[0,T] R+ and aj:[0,T] (0,1), j=1,...,J. We show how to permute the energy associated to different eigenmodes of the Schr\"odinger equation via suitable choice of the functions η and aj. To the purpose, we mime the control processes introduced in [17] for a very similar equation where the Dirac potential is replaced by a smooth approximation supported in a neighborhood of x=a(t). We also propose a Galerkin approximation that we prove to be convergent and illustrate the control process with some numerical simulations.