# Distal dynamical system

A dynamical system with a metric phase space such that for any points the greatest lower bound of the distances,

If a pair of points in a given dynamical system has this property, one says that this pair of points is distal; thus, a distal dynamical system is a dynamical system all pairs of points of which are distal.

This definition is suitable for "general" dynamical systems, when the "time" runs through an arbitrary group . Interesting results are obtained if is locally compact (the "classical" cases of a cascade or flow, viz. when or , are fundamental, but their treatment is hardly simpler), and is compact. Of special interest is the case when is a minimal set (the general case is reducible, in a sense, to this case, since under the above restriction (the closure of) each trajectory is a minimal set). The most important example of a distal dynamical system is the system resulting from the closure of an almost-periodic trajectory of some dynamical system. A second example are nil-flows [1]. As is also the case in the above examples, the construction of a distal dynamical system with a minimal set under these conditions permits a fairly detailed description of an algebraic nature [2]; for an account of the theory of distal dynamic systems and their generalizations, as well as the relevant literature, see [3].

#### References

[1] | L. Auslander, L. Green, F. Hahn, "Flows on homogeneous spaces" , Princeton Univ. Press (1963) |

[2] | H. Furstenberg, "The structure of distal flows" Amer. J. Math. , 85 : 3 (1963) pp. 477–515 |

[3] | I.U. Bronshtein, "Extensions of minimal transformation groups" , Sijthoff & Noordhoff (1979) (Translated from Russian) |

#### Comments

There are several notions of "almost-periodic trajectory" in use. In the article above, an almost-periodic trajectory of a point in a flow (continuous-time dynamical system) is a trajectory such that the flow is equicontinuous (cf. Equicontinuity) on the orbit closure of this point (cf. [a7]; such a trajectory is also called uniformly almost-periodic, [3]).

The Furstenberg structure theorem referred to above was proved originally for any distal minimal dynamical system on a compact metric space and arbitrary group . In [a2], the condition that is metrizable was removed. There is also a so-called "relative" version of Furstenberg's theorem, applicable to distal morphisms between compact minimal dynamical systems: see [a1], (15.4) or [3], (3.14.22) for the case that either is metrizable or is -compact (see also [a4]) and [a6] for the general case. For yet further generalizations (e.g., to point-distal morphisms, the so-called Veech structure theorem) see [3], (3.15.42), [a3] and [a5].

#### References

[a1] | R. Ellis, "Lectures on topological dynamics" , Benjamin (1969) |

[a2] | R. Ellis, "The Furstenberg structure theorem" Pacific J. Math. , 76 (1978) pp. 345–349 |

[a3] | R. Ellis, "The Veech structure theorem" Trans. Amer. Math. Soc. , 186 (1973) pp. 203–218 |

[a4] | E. Ihrig, D. McMahon, "On distal flows of finite codimension" Indian Univ. Math. J. , 33 (1984) pp. 345–351 |

[a5] | D. McMahon, L.J. Nachman, "An instrinsic characterization for PI-flows" Pacific J. Math. , 89 (1980) pp. 391–403 |

[a6] | D. McMahon, T.S. Wu, "Distal homomorphisms of non-metric minimal flows" Proc. Amer. Math. Soc. , 82 (1981) pp. 283–287 |

[a7] | V.V. Nemytskii, V.V. Stepanov, "Qualitative theory of differential equations" , Princeton Univ. Press (1960) (Translated from Russian) |

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Distal dynamical system.

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