On the existence of approximate problems that preserve the type of a bifurcation point of a nonlinear problem. Application to the stationary Navier-Stokes equations

Abstract

We consider a nonlinear problem F(λ,u)=0 on infinite-dimensional Banach spaces that correspond to the steady-state bifurcation case. In the literature, it is found again a bifurcation point of the approximate problem Fh(λh,uh)=0 only in some cases. We prove that, in every situation, given Fh that approximates F, there exists an approximate problem Fh(λh,uh)-h = 0 that has a bifurcation point with the same properties as the bifurcation point of F(λ,u)=0. First, we formulate, for a function F defined on general Banach spaces, some sufficient conditions for the existence of an equation that has a bifurcation point of certain type. For the proof of this result, we use some methods from variational analysis, Graves' theorem, one of its consequences and the contraction mapping principle for set-valued mappings. These techniques allow us to prove the existence of a solution with some desired components that equal zero of an overdetermined extended system. We then obtain the existence of a constant (or a function) so that the equation F(λ,u)- = 0 has a bifurcation point of certain type. This equation has F(λ,u) = 0 as a perturbation. It is also made evident a class of maps Cp - equivalent (right equivalent) at the bifurcation point to F(λ,u)- at the bifurcation point. Then, for the study of the approximation of F(λ,u)=0, we give conditions that relate the exact and the approximate functions. As an application of the theorem on general Banach spaces, we formulate conditions in order to obtain the existence of the approximate equation Fh(λh,uh)-h = 0.

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