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Revision as of 04:35, 13 June 2008 by Michael Hardy (talk | contribs)(diff) ← Previous revision | Latest revision (diff) | Newer revision → (diff)A linear flow on the torus is a flow on the n-dimensional torus
which is represented by the following differential equations with respect to the standard angular coordinates (θ1, θ2, ..., θn):
The solution of these equations can explicitly be expressed as
If we respesent the torus as R/Z we see that a starting point is moved by the flow in the direction ω=(ω1, ω2, ..., ωn) at constant speed and when it reaches the border of the unitary n-cube it jumps to the opposite face of the cube.
A linear flow on the torus is such that either all orbits are periodic or all orbits are dense on the torus. The first case is what happens when the components of ω are rationally dependent while the second case occurs when they are rationally independent.
See also
Bibliography
- Anatole Katok and Boris Hasselblatt (1996). Introduction to the modern theory of dynamical systems. Cambridge. ISBN 0-521-57557-5.
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