Lipschitz shadowing implies structural stability
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1 Lipschitz shadowing implies structural stability Sergei Yu. Pilyugin Sergei B. Tihomirov Abstract We show that the Lipschitz shadowing property of a diffeomorphism is equivalent to structural stability. Bibliography: 16 titles. 1 Introduction The theory of shadowing of approximate trajectories (pseudotrajectories) of dynamical systems is now a well developed part of the global theory of dynamical systems (see, for example, the monographs [1,2]). This theory is closely related to the classical theory of structural stability. It is well nown that a diffeomorphism has the shadowing property in a neighborhood of a hyberbolic set [3, 4] a structurally stable diffeomorpism has the shadowing property on the whole manifold [5 7]. Analyzing the proofs of the first shadowing results by Anosov [3] Bowen [4], it is easy to see that, in a neighborhood of a hyperbolic set, the shadowing property is Lipschitz ( the same holds in the case of a structurally stable diffeomorpism, see [1]). At the same time, it is easy to give an example of a diffeomorphism that is not structurally stable but has the shadowing property (see [8], for example). Thus, structural stability is not equivalent to shadowing. One of possible approaches in the study of relations between shadowing structural stability is the passage to C 1 -interiors. At present, it is nown that the C 1 -interior of the set of diffeomorphisms having the shadowing property coincides with the set of structurally stable diffeomorphisms [9]. Later, 1 Faculty of Mathematics Mechanics, St. Petersburg State University, University av. 28, , St. Petersburg, Russia 2 Department of Mathematics, National Taiwan University, No. 1, Section 4, Roosevelt Road, Taipei 106, Taiwan 3 The research of the second author is supported by NSC (Taiwan) M
2 a similar result was obtained for the orbital shadowing property (see [10] for details). Here, we are interested in the study of the above-mentioned relations without the passage to C 1 -interiors. Let us mention in this context that Abdenur Diaz conjectured that a C 1 -generic diffeomorphism with the shadowing property is structurally stable; they have proved this conjecture for so-called tame diffeomorphisms [11]. Recently, the first author has proved that the so-called variational shadowing is equivalent to structural stability [8]. In this short note, we show that the Lipschitz shadowing property is equivalent to structural stability. 2 Main result Let us pass to exact definitions statements. Let f be a diffeomorphism of class C 1 of an m-dimensional closed smooth manifold M with Riemannian metric dist. Let Df(x) be the differential of f at a point x. For a point p M, we denote p = f (p), Z. Denote by T x M the tangent space of M at a point x; let v, v T x M, be the norm of v generated by the metric dist. We say that f has the shadowing property if for any ɛ > 0 there exists d > 0 with the following property: for any sequence of points X = {x M} such that dist(x +1, f(x )) < d, Z, there exists a point p M such that dist(x, p ) < ɛ, Z (1) (if inequalities (1) hold, one says that the trajectory {p } ɛ-shadows the d- pseudotrajectory X). We say that f has the Lipschitz shadowing property if there exist constants L, d 0 > 0 with the following property: For any d-pseudotrajectory X as above with d d 0 there exists a point p M such that dist(x, p ) Ld, Z. (2) The main result of this note is the following statement. Theorem. The following two statements are equivalent: (1) f has the Lipschitz shadowing property; (2) f is structurally stable. 2
3 Proof. The implication (2) (1) is well nown (see [1]). In the proof of the implication (1) (2), we use the following two nown results (Propositions 1 2). First we introduce some notation. For a point p M, define the following two subspaces of T p M: B + (p) = {v T p M : Df (p)v 0, B (p) = {v T p M : Df (p)v 0, + } }. Proposition 1 (Mañé, [12]). The diffeomorphism f is structurally stable if only if B + (p) + B (p) = T p M for any p M. Consider a sequence of linear isomorphisms A = {A : R m R m, Z} for which there exists a constant N > 0 such that A, A 1 N. Fix two indices, l Z denote A 1 A l, l < ; Φ(, l) = Id, l = ; A 1 A 1 l 1, l >. Set B + (A) = {v R m : Φ(, 0)v 0, B (A) = {v R m : Φ(, 0)v 0, + } }. Proposition 2 (Pliss, [13]). The following two statements are equivalent: (a) For any bounded sequence {w R m, Z} there exists a bounded sequence {v R m, Z} such that v +1 = A v + w, Z; (b) the sequence A is hyperbolic on any of the rays [0, + ) (, 0] (see the definition in [11]), the spaces B + (A) B (A) are transverse. 3
4 Remar 1. In fact, Pliss considered in [13] not sequences of isomorphisms but homogeneous linear systems of differential equations; the relation between these two settings is discussed in [14]. Remar 2. Later, a statement analogous to Proposition 2 was proved by Palmer [15, 16]; Palmer also described Fredholm properties of the corresponding operator {v R m : Z} {v A 1 v 1 }. We fix a point p M consider the isomorphisms A = Df(p ) : T p M T p+1 M. Note that the implication (a) (b) of Proposition 2 is valid for the sequence {A } with R m replaced by T p M. It follows from Propositions 1 2 that our main theorem is a corollary of the following statement (indeed, we prove that the Lipschitz shadowing property implies the validity of statement (a) of Proposition 2 for any trajectory {p } of f, while the validity of statement (b) of this proposition implies the structural stability of f by Proposition 1). Lemma 1. If f has the Lipschitz shadowing property with constants L, d 0, then for any sequence {w T p M, Z} such that w < 1, Z, there exists a sequence {v T p M, Z} such that v 8L + 1, v +1 = A v + w, Z. (3) To prove Lemma 1, we first prove the following statement. Lemma 2. Assume that f has the Lipschitz shadowing property with constants L, d 0. Fix a trajectory {p } a natural number n. For any sequence {w T p M, [ n, n]} such that w < 1 there exists a sequence {z T p M, Z} such that z 8L + 1, Z, (4) z +1 = A z + w, [ n, n]. (5) Proof. First we locally linearize the diffeomorphism f in a neighborhood of the trajectory {p }. Let exp be the stard exponential mapping on the tangent bundle of M let exp x be the corresponding mapping T x M M. 4
5 We introduce the mappings F = exp 1 p +1 f exp p : T p M T p+1 M. It follows from the stard properties of the exponential mapping that D exp x (0) = Id; hence, DF (0) = A. Since M is compact, we can represent where F (v) = A v + φ (v), φ (v) v 0 as v 0 uniformly in. Denote by B(r, x) the ball in M of radius r centered at a point x by B T (r, x) the ball in T x M of radius r centered at the origin. There exists r > 0 such that, for any x M, exp x is a diffeomorphism of B T (r, x) onto its image, exp 1 x is a diffeomorphism of B(r, x) onto its image. In addition, we may assume that r has the following property. If v, w B T (r, x), then dist(exp x (v), exp x (w)) v w 2; if y, z B(r, x), then exp 1 x (y) exp 1 x (z) 2. dist(y, z) Now we pass to construction of pseudotrajectories; every time, we tae d so small that the considered points of our pseudotrajectories, points of shadowing trajectories, their lifts to tangent spaces etc belong to the corresponding balls B(r, p ) B T (r, p ) ( we do not repeat this condition on the smallness of d). For brevity, for v B T (r, p ) we write i(v ) instead of exp p (v ), for y B(r, p ) we write l(y ) instead of exp 1 p (y ) (thus, the index of the argument shows at which point p, the exponential mapping or its inverse is applied). Consider the sequence { T p M, [ n, n + 1]} defined as follows: { n = 0, (6) +1 = A + w, [ n, n]. 5
6 Fix a small d > 0 construct a pseudotrajectory {ξ } as follows: ξ = i(d ), [ n, n + 1], ξ l = f l+n (ξ n ), l n 1, ξ l = f l n 1 (ξ n+1 ), l > n + 1. Denote Then η +1 = f(ξ ), ζ +1 = l(η +1 ), ζ +1 = l(ξ +1 ). ζ +1 = exp 1 p +1 f(exp p (d )) = F (d ) = A d + g (d), where g (d) = o(d), Hence, for small d, ζ +1 = exp 1 p +1 (ξ +1 ) = d +1 = A d + dw. ζ +1 ζ +1 dw + o(d) 2d dist(f(ξ ), ξ +1 ) 4d. Let us note that the required smallness of d is determined by the chosen trajectory {p }, the sequence w, the number n. The Lipschitz shadowing property of f implies that there exists an exact trajectory {y } such that dist(ξ, y ) 4Ld, [ n, n + 1]. (7) Consider the finite sequence {b T p M, [ n, n + 1]} defined as follows: db n = l(y n ) (8) b +1 = A b, [ n, n]. (9) Define t T p M by y = i(t ). Since {y } is a trajectory of f, t +1 = F (t ). Hence, t +1 = A t + h (t ), [ n, n], where h (t ) = o( t ). Let us note that dist(y, p ) dist(y, ξ ) + dist(ξ, p ) 4Ld + 2d. 6
7 Hence, t 8Ld + 4d 4(2L + N 2n + N 2n )d, [ n, n + 1], where N = sup A. We see that h (t ) = o(d), [ n, n + 1]. (10) Consider the sequence c = t db. Note that c n = 0 by (8). Clearly, c +1 = A c + h (t ), [ n, n + 1], it easily follows from (10) that for small enough d, the inequalities c = t db < d, [ n, n + 1], (11) hold. We note that l(ξ ) = d l(y ) = t get the following estimate (using (7) (11)): b = 1 d (l(ξ ) l(y ))+(t db ) 1 (8Ld+d) = 8L+1, [ n, n+1]. d (12) Consider the sequence {z T p M, Z} defined as follows: { z = b, [ n, n + 1], z = 0, / [ n, n + 1]. Inequality (12) implies estimate (4), while equalities (6) (9) imply relations (5). Lemma 2 is proved. Proof of Lemma 1. Fix n > 0 consider the sequence { w (n) w (n) = w, [ n, n], = w (n) = 0, > 0. By Lemma 2, there exists a sequence {z (n) T p M, Z} such that z (n) 8L + 1, Z, (13) z (n) +1 = A z (n) + w (n), [ n, n]. (14) Passing to a subsequence of {z (n) }, we can find a sequence {v T p M, Z} such that v = lim z (n) n, Z. (Let us note that we do not assume uniform convergence.) Passing to the limit in estimates (13) equalities (14) as n, we get relations (3). Lemma 1 our theorem are proved. 7
8 3 References 1. S. Yu. Pilyugin, Shadowing in Dynamical Systems, Lecture Notes Math., vol. 1706, Springer, Berlin, K. Palmer, Shadowing in Dynamical Systems. Theory Applications, Kluwer, Dordrecht, D. V. Anosov, On a class of invariant sets of smooth dynamical systems, Proc. 5th Int. Conf. on Nonlin. Oscill., 2, Kiev, 1970, R. Bowen, Equilibrium States the Ergodic Theory of Anosov Diffeomorphisms, Lecture Notes Math., vol. 470, Springer, Berlin, C. Robinson, Stability theorems hyperbolicity in dynamical systems, Rocy Mount. J. Math., 7, 1977, A. Morimoto, The method of pseudo-orbit tracing stability of dynamical systems, Sem. Note 39, Toyo Univ., K. Sawada, Extended f-orbits are approximated by orbits, Nagoya Math. J., 79, 1980, S. Yu. Pilyugin, Variational shadowing (to appear). 9. K. Saai, Pseudo orbit tracing property strong transversality of diffeomorphisms of closed manifolds, Osaa J. Math., 31, 1994, S. Yu. Pilyugin, A. A. Rodionova, K. Saai, Orbital wea shadowing properties, Discrete Contin. Dyn. Syst., 9, 2003, F. Abdenur L. J. Diaz, Pseudo-orbit shadowing in the C 1 topology, Discrete Contin. Dyn. Syst., 7, 2003, R. Mañé, Characterizations of AS diffeomorphisms, in: Geometry Topology, Lecture Notes Math., vol. 597, Springer, Berlin, 1977, V. A. Pliss, Bounded solutions of nonhomogeneous linear systems of differential equations, Probl. Asympt. Theory Nonlin. Oscill., Kiev, 1977, S. Yu. Pilyugin, Generalizations of the notion of hyperbolicity, J. Difference Equat. Appl., 12, 2006, K. J. Palmer, Exponential dichotomies transversal homoclinic points, J. Differ. Equat., 55, 1984, K. J. Palmer, Exponential dichotomies Fredholm operators, Proc. Amer. Math. Soc., 104, 1988,
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