Transactions of the American Mathematical Society

Author(s): Ernest Fontich; Rafael de la Llave; Pau Martín
Journal: Trans. Amer. Math. Soc. 358 (2006), 1317-1345.
MSC (2000): Primary 37D10, 37D25, 34D09, 70K45
Posted: August 1, 2005
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Abstract: Given an orbit whose linearization has invariant subspaces satisfying some non-resonance conditions in the exponential rates of growth, we prove existence of invariant manifolds tangent to these subspaces. The exponential rates of growth can be understood either in the sense of Lyapunov exponents or in the sense of exponential dichotomies. These manifolds can correspond to ``slow manifolds'', which characterize the asymptotic convergence.

Let $\{x_i\}_{i \in \mathbb{N} }$ be a regular orbit of a

dynamical system

. Let

be a subset of its Lyapunov exponents. Assume that all the Lyapunov exponents in

are negative and that the sums of Lyapunov exponents in

do not agree with any Lyapunov exponent in the complement of

Denote by $E^S_{x_i}$ the linear spaces spanned by the spaces associated to the Lyapunov exponents in

We show that there are smooth manifolds $W^S_{x_i}$ such that $f(W^S_{x_i}) \subset W^S_{x_{i+1}}$ and $T_{x_i} W^S_{x_i} = E^S_{x_i}$ . We establish the same results for orbits satisfying dichotomies and whose rates of growth satisfy similar non-resonance conditions. These systems of invariant manifolds are not, in general, a foliation.

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Retrieve articles in Transactions of the American Mathematical Society with MSC (2000): 37D10, 37D25, 34D09, 70K45

Ernest Fontich
Affiliation: Departament de Matemàtica Aplicada i Anàlisi, Universitat de Barcelona, Gran Via, 585, 08007 Barcelona, Spain
Email: fontich@mat.ub.es

Rafael de la Llave
Affiliation: Department of Mathematics, The University of Texas at Austin, Austin, Texas 78712-1082
Email: llave@math.utexas.edu

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