Yosida Distance and Existence of Invariant Manifolds in the Infinite-Dimensional Dynamical Systems

Abstract

We introduce a new concept of Yosida distance between two (unbounded) linear operators A and B in a Banach space X defined as dY(A,B):=μ +∞ \| Aμ-Bμ\|, where Aμ and Bμ are the Yosida approximations of A and B, respectively, and then study the persistence of evolution equations under small Yosida perturbation. This new concept of distance is also used to define the continuity of the proto-derivative of the operator F in the equation u'(t)=Fu(t), where F D(F)⊂ X → X is a nonlinear operator. We show that the above-mentioned equation has local stable and unstable invariant manifolds near an exponentially dichotomous equilibrium if the proto-derivative of F is continuous. The Yosida distance approach to perturbation theory allows us to free the requirement on the domains of the perturbation operators. Finally, the obtained results seem to be new.