Classical Scattering for a driven inverted Gaussian potential in terms of the chaotic invariant set

Details Classical Scattering for a driven inverted Gaussian potential in terms of the chaotic invariant set Classical Scattering for a driven inverted Gaussian potential in terms of the chaotic invariant set

2003-09-18

arxiv.org/abs/physics/0309083v1

Phys. Rev. E, 68, 46207 (2003)

Physics

Classical Physics

accepted in Phy. Rev. E

Scientific paper

10.1103/PhysRevE.68.046207

We study the classical electron scattering from a driven inverted Gaussian potential, an open system, in terms of its chaotic invariant set. This chaotic invariant set is described by a ternary horseshoe construction on an appropriate Poincare surface of section. We find the development parameters that describe the hyperbolic component of the chaotic invariant set. In addition, we show that the hierarchical structure of the fractal set of singularities of the scattering functions is the same as the structure of the chaotic invariant set. Finally, we construct a symbolic encoding of the hierarchical structure of the set of singularities of the scattering functions and use concepts from the thermodynamical formalism to obtain one of the measures of chaos of the fractal set of singularities, the topological entropy.

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