Vladimir Arnold (ed.): Dynamical systems VIII.
Springer 1993, 240p. 3-540-53376-1. DM 141.

Vladimir Arnold/A. Avez: Problemes ergodiques de la mecanique cleste.
Gauthier-Villars 1967.

D. Arrowsmith/C. Place: Dynamical systems. Differential equations, maps and 
chaotic behaviour. Chapman & Hall 1992, 330p. Pds. 18.
[ = Dynamische Systeme. Spektrum 1993, 530p. 3-86025-308-5. DM 68.]

17490 D. Arrowsmith/C. Place: An introduction to dynamical systems.
Cambridge UP 1994, 420p. $45. A very good exposition of bifurcation
and perturbation theory.

Michele Audin: Integrability of hamiltonian systems.
EMS Newsletter December 2003, 9-12.

A. Beck: On invariant sets. Annals of Math. 67 (1958), 99-103.

26821 Jairo Bochi/Marcelo Viana: The Lyapunov exponents of generic volume-preserving
and symplectic maps. Ann. Math. 161 (2005), 1423-1485.

26415 Henk Broer: KAM theory - the legacy of Kolmogorov's 1954 paper.
Bull. AMS 41/4 (2004), 507-521.

13618 Percy Deift: Integrable systems and combinatorial theory.
Notices AMS June 2000, 631-640.

17458 Manfred Denker: Einführung in die Analysis dynamischer Systeme.
Springer 2005, 290p. Eur 39. A really beautiful introduction to many areas
of differential dynamics, ergodic theory and topological dynamics.

Miklos Farkas: Periodic motions.
Springer 1994, 570p. 3-54094204-1.

3910 Jean-Pierre Francoise/Robert Roussarie (ed.): Bifurcations of planar
vector fields. Springer LN Math. 1455 (1990).

6382 Barbara Burke Hubbard/John Hubbard: Gesetz und Ordnung im Universum. 
Die KAM-Theorie. Spektrum 1994/12, 86-96.
[ = 6628 Barbara Burke Hubbard/John Hubbard: Legge e ordine nell'universo. 
Il teorema KAM. 6626 Israel, 8-16.]

Hahn: Recursion of set trajectories in a transformation group.
Proc. AMS 11 (1960), 527-532.

O. Hajek/A. Lohwater/R. McCann (ed.): Global differentiable dynamics. 
SLN Math. 235 (1971).

3923 Morris Hirsch: The dynamical systems approach to differential
equations. Bull. AMS 11 (1984), 1-64.

Morris Hirsch/S. Smale: Differential equations, dynamical systems and
linear algebra. Academic Press 1974.

H. Hofer/E. Zehnder: Symplectic invariants and Hamiltionian dynamics.
Birkhaeuser 1994, 350p. 3-7643-5066-0. DM 78.

M. Irwin: Smooth dynamical systems. Academic Press 1980. $ 55.

23481 Anatole Katok: Bernoulli diffeomorphisms on surfaces.
Ann. Math. 110/3 (1979), 529-547.

Anatole Katok/B. Hasselblatt: Introduction to the modern theory of dynamical
systems. Cambridge UP 1995.

Y. Katznelson/D. Ornstein: The differentiability of the conjugation of 
certain differomorphisms of the circle.
Erg. Theory and Dyn. Systems 9 (1989), 643-680.

Y. Katznelson/D. Ornstein: The absolute continuity of the conjugation of 
certain differomorphisms of the circle. 
Erg. Theory and Dyn. Systems 9 (1989), 681-690.

H. Kielhöfer: Bifurcation theory - an introduction with applications
to PDEs. Springer 2004, 350p. Eur 80.

Krystyna Kuperberg: A C^\infty counterexample to the Seifert conjecture
in dimension three. Preprint, 1993.

V. Lazutkin: KAM theory and semiclassical approximations to eigenfunctions. 
Springer 1993, 400p. DM 198.

22190 Jorge Lewowicz/Marcelo Cerminara: Some open problems concerning
expansive systems. Rend. Ist. Mat. Univ. Trieste 42 (2010), 129-141.

26422 Rafael de la Llave: A tutorial on KAM theory. Internet ca. 2000, 130p.

R. Mane: Ergodic theory and differentiable dynamics.
Springer 1987, 320p. DM 148.

J. Marsden/M. McCracken: The Hopf bifurcation and its applications.
Springer 1976.

Robert McKay/J. Meiss: Hamiltionian dynamical systems. Adam Hilger 1987.

K. Meyer/G. Hall: Introduction to Hamiltonian dynamical systems and the 
n-body problem. Springer 1992, 290p. DM 98.

Juergen Moser: A new technique for the construction of solutions of 
non-linear differential equations. 
Proc. Nat. Ac. USA 47 (1961), 1824-1831.

Juergen Moser: Stable and random motions in dynamical systems. 
Princeton UP 1973.

23919 David Mumford/Peter Michor: On Euler's equation and EPDiff.
J. Geom. Mech. ... (ca. 2013), 27p.

4461 Sergei Novikov: Integrability in mathematics and theoretical physics: 
Solitons. Math. Intell. 14/4 (1992), 13-21.

3691 Jacob Palis/Welington de Melo: Geometric theory of dynamical systems.
Springer 1982.

L. Perko: Differential equations and dynamical systems.
Springer 1993, 410p. 3-540-97443-1. DM 81.

S. Pilyugin: Introduction to structurally stable systems of differential 
equations. Birkheuser 1992, 190p. 3-7643-2574-7. DM 84.

26431 Jürgen Pöschel: A lecture on the classical KAM theorem.
Proc. Symp. Pure Math. 69 (2001), 707-732.

Mark Pollicott: Lectures on ergodic theory and Pesin theory on compact 
manifolds. Cambridge UP 1992, 180p. 0-521-43593-5 (pb). Pds. 20.

Paul Rabinowitz: Periodic solutions of Hamiltonian systems.
Comm. Pure and Appl. Math. 31 (1978), 157-184.

David Ruelle: Elements of differentiable dynamics and bifurcation theory.
Academic Press 1989, 200p. 0-12-601710-7. $ 28.

8497 Evelyn Sander: Seifert conjecture overthrown I. Internet 1994, 3p.

6383 Dierk Schleicher: Wann kann man ein nichtlineares dynamisches System 
geradebiegen.
Spektrum 1994/12, 96-99. Der Fields-Preistraeger Jean-Christophe Yoccoz hat 
in einem Spezialfall das Problem der kleinen Nenner vollstaendig geloest.

3692 Michael Shub: Global stability of dynamical systems. Springer 1987.

Michael Shub: Review of the book "Elements of differentiable dynamics and 
bifurcation theory" by David Ruelle. Bull. AMS 24 (1991), 199-211.

26181 Steven Smale: On gradient dynamical systems. Ann. Math. 74/1 (1961), 199-206.

23346 Stephen Smale: Differentiable dynamical systems. Bull. AMS 73 (1967), 747-817.

Hal Smith: Monotone dynamical systems. AMS 1995, 175p. $49.

Serge Tabachnikov: Billiards. Soc. Math. France 1995.

5181 R. Temam: Inertial manifolds.
Math. Intell. 12/4 (1990), 68-74.

P. Tu: Dynamical systems. An introduction with applications in economics and 
biology. Springer 1994, 320p. 3-540-57661-4. DM 65.

2686 Ferdinand Verhulst: Nonlinear differential equations and
dynamical systems. Springer 1990.

Alan Weinstein: Symplectic V-manifolds, periodic orbits of Hamiltonian
systems, and the volume of certain Riemannian manifolds.
Comm. Pure and Appl. Math. 30 (1977), 265-271.

27230 Amie Wilkinson: What are Lyapunov exponents, and why are they interesting?
Bull. AMS ... (2016), 27p.

W. Wilson: On the minimal sets of non-singular vector fields.
Annals Math. 84 (1966), 529-536.