An open set of maps for which every point is absolutely nonshadowable

Yuan, Guo-Cheng; Yorke, James

doi:10.1090/S0002-9939-99-05038-8

An open set of maps for which every point
is absolutely nonshadowable

Authors: Guo-Cheng Yuan and James A. Yorke
Journal: Proc. Amer. Math. Soc. 128 (2000), 909-918
MSC (1991): Primary 58F13; Secondary 58F12, 58F14, 58F15
DOI: https://doi.org/10.1090/S0002-9939-99-05038-8
Published electronically: May 6, 1999
MathSciNet review: 1623005
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Abstract: We consider a class of nonhyperbolic systems, for which there are two fixed points in an attractor having a dense trajectory; the unstable manifold of one has dimension one and the other's is two dimensional. Under the condition that there exists a direction which is more expanding than other directions, we show that such attractors are nonshadowable. Using this theorem, we prove that there is an open set of diffeomorphisms (in the $C^{r}$ -topology, ) for which every point is absolutely nonshadowable, i.e., there exists $\epsilon > 0$ such that, for every $\delta > 0$ , almost every $\delta$ -pseudo trajectory starting from this point is $\epsilon$ -nonshadowable.

1. Ralph H. Abraham and Stephen Smale, Nongenericity of $\Omega$ -stability, Global analysis (Proceedings of Symposia in Pure Mathematics, vol. 14, 1968), vol. 14, American Mathematical Society, 1970, pp. 5-8. MR 42:6867
2. D. V. Anosov, Geodesic flows on closed riemann manifolds with negative curvature, Proceedings of the Steklov Institute of Mathematics 90 (1967). MR 39:3527
3. Michael Benedicks and Lennart Carleson, The dynamics of the Hénon map, Annals of Mathematics(2) 133 (1991), no. 1, 73-169. MR 92d:58116
4. Rufus Bowen, $\omega$ -limit sets for Axiom A diffeomorphisms, Journal of Differential Equations 18 (1975), no. 2, 333-339. MR 54:1300
5. Shui-Nee Chow and Kenneth J. Palmer, On the numerical computation of orbits of dynamical systems: the one-dimensional case, Journal of Dynamics and Differential Equations 3 (1991), no. 3, 361-379. MR 92h:58057
6. -, On the numerical computation of orbits of dynamical systems: the higher-dimensional case, Journal of Complexity 8 (1992), no. 4, 398-423. MR 93k:65118
7. Brian A. Coomes, Hüseyin Koçak, and Kenneth J. Palmer, Periodic shadowing, Chaotic Numerics, Contemporary Mathematics Series 172., American Mathematical Society, Providence, Rhode Island, 1994, pp. 115-130. MR 95i:58128
8. -, Shadowing in discete dynamical systems, Six Lectures on Dynamical Systems, World Scientific Publishing, River Edge, New Jersey, 1996, pp. 163-211. MR 98d:58133
9. Ethan M. Coven, Ittai Kan, and James A. Yorke, Pseudo-orbit shadowing in the family of tent maps, Transactions of the American Mathematical Society 308 (1988), no. 1, 227-241. MR 90b:58236
10. William Feller, An introduction to probability theory and its applications, John Wiley & Sons, Inc., 1957. MR 19:466a
11. Jacques Hadamard, Sur l'itération et les solutions asymptotiques des équations différentielles, Bulletin de la Société Mathématique de France 29 (1901), 224-228.
12. Stephen M. Hammel, James A. Yorke, and Celso Grebogi, Do numerical orbits of chaotic dynamical processes represent true orbits?, Journal of Complexity 3 (1987), no. 2, 136-145. MR 88m:58115
13. -, Numerical orbits of chaotic processes represent true orbits, Bulletin of American Mathematical Society 19 (1988), no. 2, 465-469. MR 89m:58180
14. Anatole Katok and Boris Hasselblatt, Introduction to modern theory of dynamical systems, Cambridge University Press, 1995. MR 96c:58055
15. Yuri Kifer, Random perturbations of dynamical systems, Birkhauser, 1988. MR 91e:58159
16. Eric J. Kostelich, Ittai Kan, Celso Grebogi, Edward Ott, and James A. Yorke, Unstable dimension variability: A source of nonhyperbolicity in chaotic systems, Physics and dynamics between chaos, order, and noise (Berlin, 1996) Phys. D 109 (1997), no. 1-2. 81-90. MR 98a:58110
17. P. J. Myrberg, Sur l'itération des polynomes réels quadratiques, Journal de Mathématiques Pures et Appliquées (9) 41 (1962), 339-351. MR 28:5171
18. Leon Poon, Celso Grebogi, Tim Sauer, and James A. Yorke, Limits to deterministic modeling, Preprint.
19. Clark Robinson, Dynamical systems : stability, symbolic dynamics, and chaos, CRC Press, Inc., 1995. MR 97e:58064
20. Tim Sauer, Celso Grebogi, and James A. Yorke, How long do numerical chaotic solutions remain valid?, Physical Review Letters 79 (1997), 59.
21. Tim Sauer and James. A. Yorke, Rigorous verification of trajectories for the computer simulation of dynamical systems, Nonlinearity 4 (1991), no. 3, 961-979. MR 93a:58104
22. Stephen Smale, Differentiable dynamical systems, Bulletin of the American Mathematical Society 73 (1967), 747-817. MR 37:3598
23. Stephen Smale and Robert F. Williams, The qualitative analysis of a difference equation of population growth, Journal of Mathematical Biology 3 (1976), no. 1, 1-4. MR 54:2251
24. Lai-Sang Young, Stochastic stability of hyperbolic attractors, Ergodic Theory and Dynamical Systems 6 (1986), 311-319. MR 88a:58160