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Persistence of homoclinic tangencies in higher dimensions

Published online by Cambridge University Press:  19 September 2008

Neptali Romero
Neptali Romero
Affiliation:
Dpto. de Matemática. Decanato de Ciencias. UCOLA, Apdo.400, Barquisimeto, Venezuela
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Abstract

In this paper we extend to a very general context Newhouse's phenomenon concerning the persistence of homoclinic tangencies and the coexistence of infinitely many sinks. This is done using the corresponding results in codimension one recently provedby J. Palis and M. Viana, and in a reduction of codimension in the unfolding of homoclinic tangencies developed in the present paper.

Type
Research Article
Information
Ergodic Theory and Dynamical Systems , Volume 15 , Issue 4 , August 1995 , pp. 735 - 757
Copyright
Copyright © Cambridge University Press 1995

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References

REFERENCES

[AS]Afraimovic, V. S. and Sil'nikov, L.P.. On critical sets of Morse-Smale systems. Trans. Moscow Math. Soc. 28(1973), 179212.Google Scholar
[BC]Benedicks, M. and Carleson, L.. The dynamics of Hénon map. Ann. of Math. 133 (1991), 73164.CrossRefGoogle Scholar
[GS]Gonchenco, S. V. and Sil'nikov, L. P.. Invariants of Ω-conjugacy of diffeomorphisms with a nongeneric homoclinic trajectory. Ukr. Math. J. 42 (1990), 134140.CrossRefGoogle Scholar
[HP]Hirsch, M. and Pugh, C.. Stable manifolds and hyperbolic sets. Global Analysis. Proc. Symp. Pure Math. AMS XIV (1970), 133163.CrossRefGoogle Scholar
[HPS]Hirsch, M., Pugh, C. and Shub, M.. Invariant Manifolds. Springer Lecture Notes in Mathematics 583. Springer, Berlin, 1977.Google Scholar
[M]Martín Rivas, J. C.. Homoclinic bifurcations and cascades of period doubling bifurcations in higher dimension. PhD Thesis IMPA (1992) and to appear.Google Scholar
[MV]Mora, L. and Viana, M.. Abundance of stranges attractors. Acta Mathematica 171 (1993), 171.CrossRefGoogle Scholar
[N]Newhouse, S.. The abundance of wild hyperbolic sets and nonsmooth stable sets for diffeomorphisms. Publ. Math. IHES 50 (1979), 101151.CrossRefGoogle Scholar
[NPT]Newhouse, S., Palis, J. and Takens, F.. Bifurcations and stability of families of diffeomorphisms. Publ. Math. IHES 57 (1983), 771.CrossRefGoogle Scholar
[PT1]Palis, J. and Takens, F.. Hyperbolicity and the creation of homoclinic orbits. Ann. Math. 125 (1987), 337374.CrossRefGoogle Scholar
[PT]Palis, J. and Takens, F.. Hyperbolicity and Sensitive Chaotic Dynamics at Homoclinic Bifurcations, Fractal Dimensions and Infinitely many Attractors. Cambridge University Press, Cambridge, 1993.Google Scholar
[PV]Palis, J. and Viana, M.. High dimension diffeomorphisms displaying infinitely many sinks. Ann. Math. 140(1994), 207250.CrossRefGoogle Scholar
[PY]Palis, J. and Yoccoz, J.C.. Homoclinic tangencies for hyperbolic sets of large Hausdorff dimensions. Acta Mathematica. 172 (1994), 91136.CrossRefGoogle Scholar
[R]Robinson, C.. Bifurcating infinitely many sinks. Comm. Math. Phys. 90 (1983), 433459.CrossRefGoogle Scholar
[S]Sternberg, S.. On the structure of local homeomorphisms of Euclidean n-space, II. Amer. J. Math. 80 (1958), 623631.CrossRefGoogle Scholar
[T]Takens, F.. Partially hyperbolic fixed points. Topology. 10 (1971), 133147.CrossRefGoogle Scholar
[V]Viana, M.. Strange attractors in higher dimensions. Bull. Braz. Math. Soc. 24 (1993), 1362.CrossRefGoogle Scholar
[YA]Yorke, J. and Alligood, K.. Cascade of period doubling bifurcations: a prerequisite for horseshoes. Bull. Amer. Math. Soc. (New Series) 9 (1983), 319322.CrossRefGoogle Scholar